JSM5910 Scanning Electron Microscope
The JSM5910 SEM is capable of imaging conductive samples at magnifications of up to 300,000 at accelerating voltages of up to 3kV. Images may be obtained using either the secondary electron detector or backscattered electron detector. Energy dispersive x-ray spectroscopy (EDS) may be carried out with the Oxford Inca 300 EDS system. Non-conductive samples may be gold coated in the adjacent sample preparation room for a small extra charge.
The JSM5910 SEM is capable of imaging conductive samples at magnifications of up to 300,000 at accelerating voltages of up to 3kV. Images may be obtained using either the secondary electron detector or backscattered electron detector. Energy dispersive x-ray spectroscopy (EDS) may be carried out with the Oxford Inca 300 EDS system. Non-conductive samples may be gold coated in the adjacent sample preparation room for a small extra charge.
The JSM5910 SEM is capable of imaging conductive samples at magnifications of up to 300,000 at accelerating voltages of up to 3kV. Images may be obtained using either the secondary electron detector or backscattered electron detector. Energy dispersive x-ray spectroscopy (EDS) may be carried out with the Oxford Inca 300 EDS system. Non-conductive samples may be gold coated in the adjacent sample preparation room for a small extra charge.
false
F10020
BARTLETT, PHILIP
Gemini 2375 BET Apparatus
The Gemini BET analyser is a simple to use system for measuring the surface area of solid materials. It does this by measuring the difference between the rates of adsorption of analysis gas in the sample and a blank over a range of partial pressures. These measurements are used to automatically calculate the surface area using the Brunauer, Emmet and Teller (BET) method. As well as the Gemini analyser itself, the facility includes a sample preparation station and a 0.1mg balance
The Gemini BET analyser is a simple to use system for measuring the surface area of solid materials. It does this by measuring the difference between the rates of adsorption of analysis gas in the sample and a blank over a range of partial pressures. These measurements are used to automatically calculate the surface area using the Brunauer, Emmet and Teller (BET) method. As well as the Gemini analyser itself, the facility includes a sample preparation station and a 0.1mg balance
The Gemini BET analyser is a simple to use system for measuring the surface area of solid materials. It does this by measuring the difference between the rates of adsorption of analysis gas in the sample and a blank over a range of partial pressures. These measurements are used to automatically calculate the surface area using the Brunauer, Emmet and Teller (BET) method. As well as the Gemini analyser itself, the facility includes a sample preparation station and a 0.1mg balance
false
F10021
BARTLETT, PHILIP
Philips FEI XL30SEM Environmental Scanning Electron Microscope
The XL30 environmental SEM is capable of imaging at magnifications of up to 100,000, using an accelerating voltage of up to 30kV. Electrically conductive samples can be imaged using the secondary electron detector, while non-conducting materials may be studied, without the need for coating, with the gaseous secondary electron detector. Compositional information may be obtained using a backscattered electron detector, while elemental analysis can be performed with the energy dispersive X-ray spectroscopy (EDS) probe. The XL30 will be undergoing an upgrade in the spring of 2012 to replace the existing EDS probe and to additionally fit a waveform dispersive x-ray spectroscopy (WDS) system, which will give greatly enhanced x-ray resolution and light element analysis capability.
The XL30 environmental SEM is capable of imaging at magnifications of up to 100,000, using an accelerating voltage of up to 30kV. Electrically conductive samples can be imaged using the secondary electron detector, while non-conducting materials may be studied, without the need for coating, with the gaseous secondary electron detector. Compositional information may be obtained using a backscattered electron detector, while elemental analysis can be performed with the energy dispersive X-ray spectroscopy (EDS) probe. The XL30 will be undergoing an upgrade in the spring of 2012 to replace the existing EDS probe and to additionally fit a waveform dispersive x-ray spectroscopy (WDS) system, which will give greatly enhanced x-ray resolution and light element analysis capability.
The XL30 environmental SEM is capable of imaging at magnifications of up to 100,000, using an accelerating voltage of up to 30kV. Electrically conductive samples can be imaged using the secondary electron detector, while non-conducting materials may be studied, without the need for coating, with the gaseous secondary electron detector. Compositional information may be obtained using a backscattered electron detector, while elemental analysis can be performed with the energy dispersive X-ray spectroscopy (EDS) probe. The XL30 will be undergoing an upgrade in the spring of 2012 to replace the existing EDS probe and to additionally fit a waveform dispersive x-ray spectroscopy (WDS) system, which will give greatly enhanced x-ray resolution and light element analysis capability.
true
F10022
BARTLETT, PHILIP
CT Centre
A dedicated centre for computed tomography (CT) at Southampton, providing complete support for 3D imaging science, serving Engineering, Biomedical, Environmental and Archaeological Sciences. The centre encompasses five complementary scanning systems supporting a wide range of sample sizes (imaged volumes up to 1.5 x 1 x 1m) and resolution (down to ~200nm). Both academic and industrial consultancy services are provided.
A dedicated centre for computed tomography (CT) at Southampton, providing complete support for 3D imaging science, serving Engineering, Biomedical, Environmental and Archaeological Sciences. The centre encompasses five complementary scanning systems supporting a wide range of sample sizes (imaged volumes up to 1.5 x 1 x 1m) and resolution (down to ~200nm). Both academic and industrial consultancy services are provided.
A dedicated centre for computed tomography (CT) at Southampton, providing complete support for 3D imaging science, serving Engineering, Biomedical, Environmental and Archaeological Sciences. The centre encompasses five complementary scanning systems supporting a wide range of sample sizes (imaged volumes up to 1.5 x 1 x 1m) and resolution (down to ~200nm). Both academic and industrial consultancy services are provided.
true
F10025
SINCLAIR, IAN
Characterisation (nCATS)
The facilities capabilities include: Optical microscopy and image analysis with measurement of surface properties (Alicona). AFM for topography and mechanical characterisation of surfaces; imaging modes: contact, non-contact, current sensing, dynamic lateral force and force modualtion. RAMAN Mircroscopy, ZETA APS for particle characterisation.
The facilities capabilities include: Optical microscopy and image analysis with measurement of surface properties (Alicona). AFM for topography and mechanical characterisation of surfaces; imaging modes: contact, non-contact, current sensing, dynamic lateral force and force modualtion. RAMAN Mircroscopy, ZETA APS for particle characterisation.
The facilities capabilities include: Optical microscopy and image analysis with measurement of surface properties (Alicona). AFM for topography and mechanical characterisation of surfaces; imaging modes: contact, non-contact, current sensing, dynamic lateral force and force modualtion. RAMAN Mircroscopy, ZETA APS for particle characterisation.
true
F10027
WOOD, ROBERT
EM Centre
The centre houses strategic research facilities for the microstructural characterisation of materials by high resolution imaging, crystallographyand nano/micro-area chemical analysis. Both scanning and transmission electron microscopes (SEM & TEM) are available. SEM (JSM6500F) has a resolution of 1.5nm for surface imaging and chemical microanalysis at micron scale. TEM (JEM 3010) has a resolution of 0.21nm with an accelerating voltage 300kv, high tilt polepieces (± 42 degrees) for crystallographic analysis at nano scale. The centre has a full range of preparation facilities including carbon coating, gold sputter coating, ion beam thinning, disc punch/grinding, mechanical dimpling and electropolishing.
The centre houses strategic research facilities for the microstructural characterisation of materials by high resolution imaging, crystallographyand nano/micro-area chemical analysis. Both scanning and transmission electron microscopes (SEM & TEM) are available. SEM (JSM6500F) has a resolution of 1.5nm for surface imaging and chemical microanalysis at micron scale. TEM (JEM 3010) has a resolution of 0.21nm with an accelerating voltage 300kv, high tilt polepieces (± 42 degrees) for crystallographic analysis at nano scale. The centre has a full range of preparation facilities including carbon coating, gold sputter coating, ion beam thinning, disc punch/grinding, mechanical dimpling and electropolishing.
The centre houses strategic research facilities for the microstructural characterisation of materials by high resolution imaging, crystallographyand nano/micro-area chemical analysis. Both scanning and transmission electron microscopes (SEM & TEM) are available. SEM (JSM6500F) has a resolution of 1.5nm for surface imaging and chemical microanalysis at micron scale. TEM (JEM 3010) has a resolution of 0.21nm with an accelerating voltage 300kv, high tilt polepieces (± 42 degrees) for crystallographic analysis at nano scale. The centre has a full range of preparation facilities including carbon coating, gold sputter coating, ion beam thinning, disc punch/grinding, mechanical dimpling and electropolishing.
true
F10026
WANG, SIMIAO
Wolfson Unit
With its experienced staff of engineers, the Wolfson Unit operates a consultancy service in ship design, yacht design, small craft design, naval architecture, marine technology and industrial aerodynamics, providing Tank Testing, Wind Tunnel Testing, Consultancy, Design Software, Onboard Systems and Innovative Research to a world wide customer base.
With its experienced staff of engineers, the Wolfson Unit operates a consultancy service in ship design, yacht design, small craft design, naval architecture, marine technology and industrial aerodynamics, providing Tank Testing, Wind Tunnel Testing, Consultancy, Design Software, Onboard Systems and Innovative Research to a world wide customer base.
With its experienced staff of engineers, the Wolfson Unit operates a consultancy service in ship design, yacht design, small craft design, naval architecture, marine technology and industrial aerodynamics, providing Tank Testing, Wind Tunnel Testing, Consultancy, Design Software, Onboard Systems and Innovative Research to a world wide customer base.
false
F10029
to be assigned, Dummy
Southampton Wind Tunnels
The University of Southampton Wind Tunnels can provide excellent and affordable facilities capable of accommodating anything from brief half-day validation studies to extended testing on everything from yachts to wind turbines and racing cars. The facilities include the R J Mitchell wind tunnel (3.6m x 2.4m) with an overhead 6-component balance, surface pressure scanner and PIV system; a 2.1m x 1.5m wind tunnel equipped with an overhead 3-component balance and capable of speeds up to 45m/s and a 0.9m x 0.6m x 4.5m working section tunnel which is installed in a laboratory and equipped with a 3D computer controlled probe traversing system and dynamometer. Please contact the Wind Tunnel Manager for full details.
The University of Southampton Wind Tunnels can provide excellent and affordable facilities capable of accommodating anything from brief half-day validation studies to extended testing on everything from yachts to wind turbines and racing cars. The facilities include the R J Mitchell wind tunnel (3.6m x 2.4m) with an overhead 6-component balance, surface pressure scanner and PIV system; a 2.1m x 1.5m wind tunnel equipped with an overhead 3-component balance and capable of speeds up to 45m/s and a 0.9m x 0.6m x 4.5m working section tunnel which is installed in a laboratory and equipped with a 3D computer controlled probe traversing system and dynamometer. Please contact the Wind Tunnel Manager for full details.
The University of Southampton Wind Tunnels can provide excellent and affordable facilities capable of accommodating anything from brief half-day validation studies to extended testing on everything from yachts to wind turbines and racing cars. The facilities include the R J Mitchell wind tunnel (3.6m x 2.4m) with an overhead 6-component balance, surface pressure scanner and PIV system; a 2.1m x 1.5m wind tunnel equipped with an overhead 3-component balance and capable of speeds up to 45m/s and a 0.9m x 0.6m x 4.5m working section tunnel which is installed in a laboratory and equipped with a 3D computer controlled probe traversing system and dynamometer. Please contact the Wind Tunnel Manager for full details.
true
F10030
MARSHALL, DAVID
Plant Growth facilities - Growth rooms & Glass Houses
The plant growth facilities consist of purpose-built glasshouses on the roof of the building together with 8 growth rooms for plant growth research. These include rooms housed in a contained area to study interactions between plants and other organisms. We also have a range of specialised plant growth cabinets.
The plant growth facilities consist of purpose-built glasshouses on the roof of the building together with 8 growth rooms for plant growth research. These include rooms housed in a contained area to study interactions between plants and other organisms. We also have a range of specialised plant growth cabinets.
The plant growth facilities consist of purpose-built glasshouses on the roof of the building together with 8 growth rooms for plant growth research. These include rooms housed in a contained area to study interactions between plants and other organisms. We also have a range of specialised plant growth cabinets.
false
F10031
WILLIAMS, LORRAINE
Insectary
At the core of Biological Science`s invertebrate facilities are nine environment-controlled rooms, with fully user-controlled temperature and light regimes that can be used for the long-term culturing of populations of insects and other invertebrates, and for more short-term experiments such as bio-assays. There are also dedicated laboratories for work with insects and worms.
At the core of Biological Science`s invertebrate facilities are nine environment-controlled rooms, with fully user-controlled temperature and light regimes that can be used for the long-term culturing of populations of insects and other invertebrates, and for more short-term experiments such as bio-assays. There are also dedicated laboratories for work with insects and worms.
At the core of Biological Science`s invertebrate facilities are nine environment-controlled rooms, with fully user-controlled temperature and light regimes that can be used for the long-term culturing of populations of insects and other invertebrates, and for more short-term experiments such as bio-assays. There are also dedicated laboratories for work with insects and worms.
false
F10032
KRAAIJEVELD, ALEX
OES - Research Facility: Organic Carbon Stable Isotopes
The SIRMS Laboratory is a research and teaching facility established in 1998 with NERC, HEFCE-SRIF and ESSO funding. The facilities function is measuring stable isotope ratios of various materials such as carbonates (sediments and foraminifera), organic materials (plankton and soils) and water samples. For full details of the equipment at the facility visit our website.
The SIRMS Laboratory is a research and teaching facility established in 1998 with NERC, HEFCE-SRIF and ESSO funding. The facilities function is measuring stable isotope ratios of various materials such as carbonates (sediments and foraminifera), organic materials (plankton and soils) and water samples. For full details of the equipment at the facility visit our website.
The SIRMS Laboratory is a research and teaching facility established in 1998 with NERC, HEFCE-SRIF and ESSO funding. The facilities function is measuring stable isotope ratios of various materials such as carbonates (sediments and foraminifera), organic materials (plankton and soils) and water samples. For full details of the equipment at the facility visit our website.
true
F10044
ROHLING, EELCO
Scanning Electron Microscope Facility (SEM)
Based at the School of Ocean & Earth Sciences the centre was established primarily to support high resolution palaeoceanographic, palaeoclimatic and palae-environmental research. Particular areas of expertise include the preparation of a wide range of unconsolidated to partly consolidated sediments for electron microscopy and the analysis of the microfossil and mineral content of samples.
Based at the School of Ocean & Earth Sciences the centre was established primarily to support high resolution palaeoceanographic, palaeoclimatic and palae-environmental research. Particular areas of expertise include the preparation of a wide range of unconsolidated to partly consolidated sediments for electron microscopy and the analysis of the microfossil and mineral content of samples.
Based at the School of Ocean & Earth Sciences the centre was established primarily to support high resolution palaeoceanographic, palaeoclimatic and palae-environmental research. Particular areas of expertise include the preparation of a wide range of unconsolidated to partly consolidated sediments for electron microscopy and the analysis of the microfossil and mineral content of samples.
false
F10045
KEMP, ALAN
X-Ray Diffraction Facility (XRD)
The X-Ray Diffraction (XRD) facility located at NOCS provides a service for the qualitative or quantitative analysis of rock samples to determine bulk mineralogy and/or clay mineralogy. Samples are run on a Philips X`Pert pro XRD machine with a Cu X-ray tube. Mineral identification is undertaken using the JC PDS (powder diffraction studies) database.
The X-Ray Diffraction (XRD) facility located at NOCS provides a service for the qualitative or quantitative analysis of rock samples to determine bulk mineralogy and/or clay mineralogy. Samples are run on a Philips X`Pert pro XRD machine with a Cu X-ray tube. Mineral identification is undertaken using the JC PDS (powder diffraction studies) database.
The X-Ray Diffraction (XRD) facility located at NOCS provides a service for the qualitative or quantitative analysis of rock samples to determine bulk mineralogy and/or clay mineralogy. Samples are run on a Philips X`Pert pro XRD machine with a Cu X-ray tube. Mineral identification is undertaken using the JC PDS (powder diffraction studies) database.
false
F10046
PEARCE, RICHARD
Doak - Jet facility
The Anechoic Doak Laboratory facility is approximately 15m x 7m x 5m high and is fully anechoic down to 400 Hz. It is used for jet and valve noise and is equipped with an air supply that can achieve up to 20bar pressure. Both polar and a transversable azimuthal array of microphones can be used to give a complete 3-dimensional sound field up to a maximum acquisition frequency is 40 kHz.
The Anechoic Doak Laboratory facility is approximately 15m x 7m x 5m high and is fully anechoic down to 400 Hz. It is used for jet and valve noise and is equipped with an air supply that can achieve up to 20bar pressure. Both polar and a transversable azimuthal array of microphones can be used to give a complete 3-dimensional sound field up to a maximum acquisition frequency is 40 kHz.
The Anechoic Doak Laboratory facility is approximately 15m x 7m x 5m high and is fully anechoic down to 400 Hz. It is used for jet and valve noise and is equipped with an air supply that can achieve up to 20bar pressure. Both polar and a transversable azimuthal array of microphones can be used to give a complete 3-dimensional sound field up to a maximum acquisition frequency is 40 kHz.
false
F10048
TURNER, LINDA
Rayleigh Laboratories (Anechoic and Reverberation Chambers)
The Laboratories on the main campus include two reverberation chambers, a large anechoic chamber, a loudspeaker listening room, a product development lab for noise and vibration, a combustion noise rig and a range of electrodynamic shakers. The laboratories are well served with comprehensive control and preparation areas. A wide range of modern, highly specialised instrumentation is available. Single and three phase electrical supplies at 50, 60 and 400 Hz, compressed air and cooling water can be provided. Mechanical workshop and handling facilities are readily accessible.
The Laboratories on the main campus include two reverberation chambers, a large anechoic chamber, a loudspeaker listening room, a product development lab for noise and vibration, a combustion noise rig and a range of electrodynamic shakers. The laboratories are well served with comprehensive control and preparation areas. A wide range of modern, highly specialised instrumentation is available. Single and three phase electrical supplies at 50, 60 and 400 Hz, compressed air and cooling water can be provided. Mechanical workshop and handling facilities are readily accessible.
The Laboratories on the main campus include two reverberation chambers, a large anechoic chamber, a loudspeaker listening room, a product development lab for noise and vibration, a combustion noise rig and a range of electrodynamic shakers. The laboratories are well served with comprehensive control and preparation areas. A wide range of modern, highly specialised instrumentation is available. Single and three phase electrical supplies at 50, 60 and 400 Hz, compressed air and cooling water can be provided. Mechanical workshop and handling facilities are readily accessible.
false
F10049
FITHYAN, JOHN
AB Wood Underwater Test Tank
The A. B. Wood laboratory, at the Institute of Sound and Vibration Research, contains one large and several small tanks of fresh water. The large tank measures 8 m × 8 m × 5 m deep. This tank has a bubble generation system which generates bubble populations with a bubble size distribution and number resembling that found under breaking ocean waves. Several small tanks provide a range of water and saturated sediment environments. A suite of acoustic sources and sensors and underwater video cameras are available.
The A. B. Wood laboratory, at the Institute of Sound and Vibration Research, contains one large and several small tanks of fresh water. The large tank measures 8 m × 8 m × 5 m deep. This tank has a bubble generation system which generates bubble populations with a bubble size distribution and number resembling that found under breaking ocean waves. Several small tanks provide a range of water and saturated sediment environments. A suite of acoustic sources and sensors and underwater video cameras are available.
The A. B. Wood laboratory, at the Institute of Sound and Vibration Research, contains one large and several small tanks of fresh water. The large tank measures 8 m × 8 m × 5 m deep. This tank has a bubble generation system which generates bubble populations with a bubble size distribution and number resembling that found under breaking ocean waves. Several small tanks provide a range of water and saturated sediment environments. A suite of acoustic sources and sensors and underwater video cameras are available.
false
F10050
LEIGHTON, TIMOTHY
HP Air
The Institute of Sound & Vibration Research (ISVR) maintains a High Pressure Air Facility which can deliver air up to 20Bar (280psi) to the following areas in the Faculty of Engineering and the Environment:
B13 Tizard Doak Laboratory (Room 1023)
B15 Rayleigh Reverberation (Chamber Room 1031)
The use of the facility is potentially hazardous due to the high jet velocities and high air pressures involved. To minimise the risk of injury to oneself and damage to the rig it is essential that all users of the rig strictly adhere to the Operational Procedure (under review). Details and further information can be obtained from Ged Goldsmith, Faculty Technical Manager
The Institute of Sound & Vibration Research (ISVR) maintains a High Pressure Air Facility which can deliver air up to 20Bar (280psi) to the following areas in the Faculty of Engineering and the Environment:
B13 Tizard Doak Laboratory (Room 1023)
B15 Rayleigh Reverberation (Chamber Room 1031)
The use of the facility is potentially hazardous due to the high jet velocities and high air pressures involved. To minimise the risk of injury to oneself and damage to the rig it is essential that all users of the rig strictly adhere to the Operational Procedure (under review). Details and further information can be obtained from Ged Goldsmith, Faculty Technical Manager
The Institute of Sound & Vibration Research (ISVR) maintains a High Pressure Air Facility which can deliver air up to 20Bar (280psi) to the following areas in the Faculty of Engineering and the Environment:
B13 Tizard Doak Laboratory (Room 1023)
B15 Rayleigh Reverberation (Chamber Room 1031)
The use of the facility is potentially hazardous due to the high jet velocities and high air pressures involved. To minimise the risk of injury to oneself and damage to the rig it is essential that all users of the rig strictly adhere to the Operational Procedure (under review). Details and further information can be obtained from Ged Goldsmith, Faculty Technical Manager
false
F10051
to be assigned, Dummy
Interdisciplinary Centre for NMR
The Interdisciplinary Centre for NMR applies magnetic resonance methods to study the structure and dynamics of small molecules, biomolecules and materials. The facility has recently relocated to a state-of-the-art facility and aims to provide a comprehensive platform to study molecules in both the liquid and solid-state.
The Interdisciplinary Centre for NMR applies magnetic resonance methods to study the structure and dynamics of small molecules, biomolecules and materials. The facility has recently relocated to a state-of-the-art facility and aims to provide a comprehensive platform to study molecules in both the liquid and solid-state.
The Interdisciplinary Centre for NMR applies magnetic resonance methods to study the structure and dynamics of small molecules, biomolecules and materials. The facility has recently relocated to a state-of-the-art facility and aims to provide a comprehensive platform to study molecules in both the liquid and solid-state.
true
F10034
WERNER, JORN
Mass Spectrometer
The Mass Spectrometry service has developed a strong research support function for clients, both internal and external to the University.We have built up a varied client portfolio, with clients from the pharmaceutical, chemical and oilfield industries, small and medium enterprises, custom synthesis houses, government agencies, universities and many more. The service offers a wide range of state-of-the-art mass spectrometery systems that are capable of dealing with all sample types and a wide array of client demands.
The Mass Spectrometry service has developed a strong research support function for clients, both internal and external to the University.We have built up a varied client portfolio, with clients from the pharmaceutical, chemical and oilfield industries, small and medium enterprises, custom synthesis houses, government agencies, universities and many more. The service offers a wide range of state-of-the-art mass spectrometery systems that are capable of dealing with all sample types and a wide array of client demands.
The Mass Spectrometry service has developed a strong research support function for clients, both internal and external to the University.We have built up a varied client portfolio, with clients from the pharmaceutical, chemical and oilfield industries, small and medium enterprises, custom synthesis houses, government agencies, universities and many more. The service offers a wide range of state-of-the-art mass spectrometery systems that are capable of dealing with all sample types and a wide array of client demands.
true
F10035
LANGLEY, GRAHAM
Tissue Culture
[Await description]
[Await description]
[Await description]
false
F10036
NEWMAN, TRACEY
19m Simulator
[Await description]
[Await description]
[Await description]
false
F10055
to be assigned, Dummy
Imaging & Microscopy Centre
The Imaging and Microscopy Centre (IMC) is a core facility specialising in light microscopy applications, in particular confocal and multiphoton microscopy. Its equipment allows to combine confocal and widefield fluorescence microscopy with electrophysiology. IMC is inter-linked with the Institute for Life Sciences with which it co-operates in providing specialist imaging applications and imaging expertise. The Centre has an open access policy for internal and external users and offers training courses as well as one-to-one training sessions for operating its equipment. The IMC space comprises containment level (CL) 1 and 2 areas, including a CL 2 preparation room, and is managed by Mark Willett (facility manager) according to a local code of practice
The Imaging and Microscopy Centre (IMC) is a core facility specialising in light microscopy applications, in particular confocal and multiphoton microscopy. Its equipment allows to combine confocal and widefield fluorescence microscopy with electrophysiology. IMC is inter-linked with the Institute for Life Sciences with which it co-operates in providing specialist imaging applications and imaging expertise. The Centre has an open access policy for internal and external users and offers training courses as well as one-to-one training sessions for operating its equipment. The IMC space comprises containment level (CL) 1 and 2 areas, including a CL 2 preparation room, and is managed by Mark Willett (facility manager) according to a local code of practice
The Imaging and Microscopy Centre (IMC) is a core facility specialising in light microscopy applications, in particular confocal and multiphoton microscopy. Its equipment allows to combine confocal and widefield fluorescence microscopy with electrophysiology. IMC is inter-linked with the Institute for Life Sciences with which it co-operates in providing specialist imaging applications and imaging expertise. The Centre has an open access policy for internal and external users and offers training courses as well as one-to-one training sessions for operating its equipment. The IMC space comprises containment level (CL) 1 and 2 areas, including a CL 2 preparation room, and is managed by Mark Willett (facility manager) according to a local code of practice
true
F10033
WILLETT, MARK
The Macromolecular Crystallisation Facility (Crystallography)
The Macromolecular Crystallisation Facility of the University of Southampton based at the IfLS (Institute for Life Sciences), uses technology originally developed for high-throughput structural genomics programmes. This technology enables us to rapidly gain access to 3D structural information on macromolecules that are being investigated in research programmes. The facility provides crystallisation experiments, on-line access to the evaluation of these experiments and thus acts as a hub to integrate structural work into investigations of biological phenomena.
The Macromolecular Crystallisation Facility of the University of Southampton based at the IfLS (Institute for Life Sciences), uses technology originally developed for high-throughput structural genomics programmes. This technology enables us to rapidly gain access to 3D structural information on macromolecules that are being investigated in research programmes. The facility provides crystallisation experiments, on-line access to the evaluation of these experiments and thus acts as a hub to integrate structural work into investigations of biological phenomena.
The Macromolecular Crystallisation Facility of the University of Southampton based at the IfLS (Institute for Life Sciences), uses technology originally developed for high-throughput structural genomics programmes. This technology enables us to rapidly gain access to 3D structural information on macromolecules that are being investigated in research programmes. The facility provides crystallisation experiments, on-line access to the evaluation of these experiments and thus acts as a hub to integrate structural work into investigations of biological phenomena.
false
F10037
TEWS, IVO
Biophysical Equipment
Available techniques include absorption and fluoresence spectroscopy, circular dichroism, electrospray ionisation mass spectrometry, isothermal titration calorimetry and stopped flow fluoresence.
Available techniques include absorption and fluoresence spectroscopy, circular dichroism, electrospray ionisation mass spectrometry, isothermal titration calorimetry and stopped flow fluoresence.
Available techniques include absorption and fluoresence spectroscopy, circular dichroism, electrospray ionisation mass spectrometry, isothermal titration calorimetry and stopped flow fluoresence.
false
F10038
WILLIAMSON, PHILIP
Centre for Proteomic Research
The Centre for Proteomic Research combines state-of-the-art instrumentation with in-depth expertise to undertake collaborative proteomic-based projects from industry and both UK and international academic institutions.
The Centre for Proteomic Research combines state-of-the-art instrumentation with in-depth expertise to undertake collaborative proteomic-based projects from industry and both UK and international academic institutions.
The Centre for Proteomic Research combines state-of-the-art instrumentation with in-depth expertise to undertake collaborative proteomic-based projects from industry and both UK and international academic institutions.
false
F10039
SKIPP, PAUL
Transgenic facilities
This facility provides services to researchers to analyse the function of genes within the whole animal context allowing important biological and medical questions to be addressed across the University.
This facility provides services to researchers to analyse the function of genes within the whole animal context allowing important biological and medical questions to be addressed across the University.
This facility provides services to researchers to analyse the function of genes within the whole animal context allowing important biological and medical questions to be addressed across the University.
false
F10040
SHETH, BHAVWANTI
Nanomaterials Rapid Prototyping Facility
The NanoMaterials Rapid Prototyping Facility is a semi-cleanroom environment, equipped for the fabrication and analysis of NanoMaterials. The facility is designed to allow prototype Nano-devices to be quickly built and tested and is a collaboration between physicists, chemists, engineers, material scientists and industrialists to combine the successes of their disciplines to create entirely new ways of building on the nano-scale.
The NanoMaterials Rapid Prototyping Facility is a semi-cleanroom environment, equipped for the fabrication and analysis of NanoMaterials. The facility is designed to allow prototype Nano-devices to be quickly built and tested and is a collaboration between physicists, chemists, engineers, material scientists and industrialists to combine the successes of their disciplines to create entirely new ways of building on the nano-scale.
The NanoMaterials Rapid Prototyping Facility is a semi-cleanroom environment, equipped for the fabrication and analysis of NanoMaterials. The facility is designed to allow prototype Nano-devices to be quickly built and tested and is a collaboration between physicists, chemists, engineers, material scientists and industrialists to combine the successes of their disciplines to create entirely new ways of building on the nano-scale.
true
F10041
SMITH, DAVID
MC-ICP-MS
Multi collector-inductively coupled plasma mass spectrometry (MC-ICP-MS) was installed in our isotope laboratories in September 1999. It was acquired as part of the PRISMS EC project to examine standards and isotopic measurement techniques. Following this project, the instrument has formed an integral part of isotopic analysis in the NOCS, with a diverse range of applications including environmental, geological, nuclear, and oceanographic.
Multi collector-inductively coupled plasma mass spectrometry (MC-ICP-MS) was installed in our isotope laboratories in September 1999. It was acquired as part of the PRISMS EC project to examine standards and isotopic measurement techniques. Following this project, the instrument has formed an integral part of isotopic analysis in the NOCS, with a diverse range of applications including environmental, geological, nuclear, and oceanographic.
Multi collector-inductively coupled plasma mass spectrometry (MC-ICP-MS) was installed in our isotope laboratories in September 1999. It was acquired as part of the PRISMS EC project to examine standards and isotopic measurement techniques. Following this project, the instrument has formed an integral part of isotopic analysis in the NOCS, with a diverse range of applications including environmental, geological, nuclear, and oceanographic.
true
F10042
PALMER, MARTIN
FACS Suite
Equipment at the facility includes the FACScan, highly sensitive single laser nonsorting instrument, FACSCalibur with 488nm laser and diode laser 633nm incl. optical configuration electronics and software, FACSAria 3 laser analsyser and a Laser Scanning Cytometer.
Equipment at the facility includes the FACScan, highly sensitive single laser nonsorting instrument, FACSCalibur with 488nm laser and diode laser 633nm incl. optical configuration electronics and software, FACSAria 3 laser analsyser and a Laser Scanning Cytometer.
Equipment at the facility includes the FACScan, highly sensitive single laser nonsorting instrument, FACSCalibur with 488nm laser and diode laser 633nm incl. optical configuration electronics and software, FACSAria 3 laser analsyser and a Laser Scanning Cytometer.
false
F10001
MCGUIRE, CAROLANN
Biomedical Imaging Unit
The Biomedical Imaging Unit provides facilities and research and diagnostic services in high quality and high resolution light and electron microscopy.
The Biomedical Imaging Unit provides facilities and research and diagnostic services in high quality and high resolution light and electron microscopy.
The Biomedical Imaging Unit provides facilities and research and diagnostic services in high quality and high resolution light and electron microscopy.
false
F10002
PAGE, ANTHONY
CL3 Suite (CAT 3)
CAT 3 Laboratory suite for hazardous microbiological research. Full clearance and training required. (Facility/equipment hire is on a complete lab basis)
CAT 3 Laboratory suite for hazardous microbiological research. Full clearance and training required. (Facility/equipment hire is on a complete lab basis)
CAT 3 Laboratory suite for hazardous microbiological research. Full clearance and training required. (Facility/equipment hire is on a complete lab basis)
false
F10003
RUSSELL, JENNIFER
Histochemistry Research Unit
The Unit has the facilities to process cells and tissue samples into a range of mediums including frozen, paraffin and resin for subsequent sectioning and staining by a variety of techniques. These methods include tinctorial staining for traditional histological examination, immunohistochemistry and in situ hybridisation. Users of the Unit may either contract the HRU to undertake work on their behalf or may use the facility to perform their own work. The HRU has extensive experience in undertaking histopathology for clinical trials. The HRU can offer advice and training on a variety of techniques. The Unit has a range of well maintained equipment available, including paraffin and resin microtomes, a range of light microscopes including those with multiple heads and digital photography and camera lucida attachment, image analysis and laser microdissection.
The Unit has the facilities to process cells and tissue samples into a range of mediums including frozen, paraffin and resin for subsequent sectioning and staining by a variety of techniques. These methods include tinctorial staining for traditional histological examination, immunohistochemistry and in situ hybridisation. Users of the Unit may either contract the HRU to undertake work on their behalf or may use the facility to perform their own work. The HRU has extensive experience in undertaking histopathology for clinical trials. The HRU can offer advice and training on a variety of techniques. The Unit has a range of well maintained equipment available, including paraffin and resin microtomes, a range of light microscopes including those with multiple heads and digital photography and camera lucida attachment, image analysis and laser microdissection.
The Unit has the facilities to process cells and tissue samples into a range of mediums including frozen, paraffin and resin for subsequent sectioning and staining by a variety of techniques. These methods include tinctorial staining for traditional histological examination, immunohistochemistry and in situ hybridisation. Users of the Unit may either contract the HRU to undertake work on their behalf or may use the facility to perform their own work. The HRU has extensive experience in undertaking histopathology for clinical trials. The HRU can offer advice and training on a variety of techniques. The Unit has a range of well maintained equipment available, including paraffin and resin microtomes, a range of light microscopes including those with multiple heads and digital photography and camera lucida attachment, image analysis and laser microdissection.
false
F10004
WILSON, SUSAN
Clean Rooms - Silica
The Silica Fibre facilities occupy over 160 sq.m of class 10,000 cleanroom space and comprise state-of-the-art fabrication equipment. This includes modified chemical vapour deposition (MCVD) lathes, a glassworking lathe, a 6 metre high dual-sided fibre drawing tower, and dedicated chemical preparation areas for glass etching and machining. The facility is capable of producing standard preforms and optical fibre to a high quality as well as retaining the versatility to fabricate the huge variety of speciality fibres, including microstructured fibres required for research.
The Silica Fibre facilities occupy over 160 sq.m of class 10,000 cleanroom space and comprise state-of-the-art fabrication equipment. This includes modified chemical vapour deposition (MCVD) lathes, a glassworking lathe, a 6 metre high dual-sided fibre drawing tower, and dedicated chemical preparation areas for glass etching and machining. The facility is capable of producing standard preforms and optical fibre to a high quality as well as retaining the versatility to fabricate the huge variety of speciality fibres, including microstructured fibres required for research.
The Silica Fibre facilities occupy over 160 sq.m of class 10,000 cleanroom space and comprise state-of-the-art fabrication equipment. This includes modified chemical vapour deposition (MCVD) lathes, a glassworking lathe, a 6 metre high dual-sided fibre drawing tower, and dedicated chemical preparation areas for glass etching and machining. The facility is capable of producing standard preforms and optical fibre to a high quality as well as retaining the versatility to fabricate the huge variety of speciality fibres, including microstructured fibres required for research.
true
F10005
SAHU, JAYANTA
FAST Lab - Laser Laboratory
The FAST LAB facility consists of three sections (one `clean` lab dedicated to optical bio-science) and the other two supplied with femtosecond laser systems and optical tables with a total floor space of 72 square metres. The £1.1M installation and recent £300K upgrade provides the ORC and its collaborators with one of the most comprehensive and flexible commercial ultrafast laser system in the world. The FAST Lab can be hired on a daily basis in order to assist your particular line of research. Whether you are a member of the ORC, a member of another department within this or another university, or even a scientist from industry or other research establishment, you are welcome to make use of the FAST Lab facility. Moreover, we are keen to establish collaborations with other experimentalists
The FAST LAB facility consists of three sections (one `clean` lab dedicated to optical bio-science) and the other two supplied with femtosecond laser systems and optical tables with a total floor space of 72 square metres. The £1.1M installation and recent £300K upgrade provides the ORC and its collaborators with one of the most comprehensive and flexible commercial ultrafast laser system in the world. The FAST Lab can be hired on a daily basis in order to assist your particular line of research. Whether you are a member of the ORC, a member of another department within this or another university, or even a scientist from industry or other research establishment, you are welcome to make use of the FAST Lab facility. Moreover, we are keen to establish collaborations with other experimentalists
The FAST LAB facility consists of three sections (one `clean` lab dedicated to optical bio-science) and the other two supplied with femtosecond laser systems and optical tables with a total floor space of 72 square metres. The £1.1M installation and recent £300K upgrade provides the ORC and its collaborators with one of the most comprehensive and flexible commercial ultrafast laser system in the world. The FAST Lab can be hired on a daily basis in order to assist your particular line of research. Whether you are a member of the ORC, a member of another department within this or another university, or even a scientist from industry or other research establishment, you are welcome to make use of the FAST Lab facility. Moreover, we are keen to establish collaborations with other experimentalists
false
F10006
EASON, ROBERT
Clean Rooms - Novel Glass
Our Novel glass facilties offer a wide range of specialized glass making and fibre drawing equipment including: a variety of horizontal and vertical tube furnaces, chamber furnaces, high and low temperature ovens, vacuum processing, L-shaped glove box system for batching, melting, annealing and casting of glass under dry nitrogen atmosphere (10ppm), testometric extrusion equipment, hydraulic extrusion equipment, thermogravimetric and thermomechanical analyzers.
Our Novel glass facilties offer a wide range of specialized glass making and fibre drawing equipment including: a variety of horizontal and vertical tube furnaces, chamber furnaces, high and low temperature ovens, vacuum processing, L-shaped glove box system for batching, melting, annealing and casting of glass under dry nitrogen atmosphere (10ppm), testometric extrusion equipment, hydraulic extrusion equipment, thermogravimetric and thermomechanical analyzers.
Our Novel glass facilties offer a wide range of specialized glass making and fibre drawing equipment including: a variety of horizontal and vertical tube furnaces, chamber furnaces, high and low temperature ovens, vacuum processing, L-shaped glove box system for batching, melting, annealing and casting of glass under dry nitrogen atmosphere (10ppm), testometric extrusion equipment, hydraulic extrusion equipment, thermogravimetric and thermomechanical analyzers.
true
F10007
HEWAK, DANIEL
Clean Rooms - Compound Glass
Our Soft Glass facilities offer a wide range of specialized glass making and fibre drawing equipment including:
A 5m Fibre Drawing Tower with cane and fibre drawing capabilities up to 1100oC; High Temperature (1700oC & 1800oC) Elevator Hearth Furnaces and High Temperature (1200oC)Chamber Furnaces for Glass Melting & Processing; Specialised (1500oC) Glass Rolling Furnace; High and Low temperature ovens; L-shaped glove box system for batching, melting, annealing and casting of glass under dry nitrogen atmosphere (<1ppm); Testometric Precision Glass Extrusion equipment; Hydraulic Glass Extrusion equipment; Fibre Characterisation Laboratory; Access to a variety of analytical equipment, including: SEM facilities; Optical Microscope Facilities, Thermogravimetric and Thermomechanical analyzers.
Our Soft Glass facilities offer a wide range of specialized glass making and fibre drawing equipment including:
A 5m Fibre Drawing Tower with cane and fibre drawing capabilities up to 1100oC; High Temperature (1700oC & 1800oC) Elevator Hearth Furnaces and High Temperature (1200oC)Chamber Furnaces for Glass Melting & Processing; Specialised (1500oC) Glass Rolling Furnace; High and Low temperature ovens; L-shaped glove box system for batching, melting, annealing and casting of glass under dry nitrogen atmosphere (<1ppm); Testometric Precision Glass Extrusion equipment; Hydraulic Glass Extrusion equipment; Fibre Characterisation Laboratory; Access to a variety of analytical equipment, including: SEM facilities; Optical Microscope Facilities, Thermogravimetric and Thermomechanical analyzers.
Our Soft Glass facilities offer a wide range of specialized glass making and fibre drawing equipment including:
A 5m Fibre Drawing Tower with cane and fibre drawing capabilities up to 1100oC; High Temperature (1700oC & 1800oC) Elevator Hearth Furnaces and High Temperature (1200oC)Chamber Furnaces for Glass Melting & Processing; Specialised (1500oC) Glass Rolling Furnace; High and Low temperature ovens; L-shaped glove box system for batching, melting, annealing and casting of glass under dry nitrogen atmosphere (<1ppm); Testometric Precision Glass Extrusion equipment; Hydraulic Glass Extrusion equipment; Fibre Characterisation Laboratory; Access to a variety of analytical equipment, including: SEM facilities; Optical Microscope Facilities, Thermogravimetric and Thermomechanical analyzers.
true
F10008
POLETTI, FRANCESCO
Clean Rooms - FHD
The ORC at Southampton has a state-of-the-art Flame Hydrolysis Deposition tool for growth of silica-on-silicon waveguide structures. The system allows the incorporation of germanium, phosphorous and boron doping within the silica, and is particularly optimised for high photosensitivity layer growth. The tool can grow films ranging from 2 microns to 20 microns in thickness.
The ORC at Southampton has a state-of-the-art Flame Hydrolysis Deposition tool for growth of silica-on-silicon waveguide structures. The system allows the incorporation of germanium, phosphorous and boron doping within the silica, and is particularly optimised for high photosensitivity layer growth. The tool can grow films ranging from 2 microns to 20 microns in thickness.
The ORC at Southampton has a state-of-the-art Flame Hydrolysis Deposition tool for growth of silica-on-silicon waveguide structures. The system allows the incorporation of germanium, phosphorous and boron doping within the silica, and is particularly optimised for high photosensitivity layer growth. The tool can grow films ranging from 2 microns to 20 microns in thickness.
true
F10009
SMITH, PETER
Scanning Electron Microscope (SEM)
The ORC SEM Facility comprises of a Zeiss Evo50 SEM fitted with an Oxford Instruments INCA 250 x-ray analysis system. In addition to dedicated Gold and Carbon deposition equipment, the SEM features variable pressure operation allowing analysis of both conductive and non-conductive sample. The INCA 250 x-ray analysis system provides elemental analysis capabilities.
The ORC SEM Facility comprises of a Zeiss Evo50 SEM fitted with an Oxford Instruments INCA 250 x-ray analysis system. In addition to dedicated Gold and Carbon deposition equipment, the SEM features variable pressure operation allowing analysis of both conductive and non-conductive sample. The INCA 250 x-ray analysis system provides elemental analysis capabilities.
The ORC SEM Facility comprises of a Zeiss Evo50 SEM fitted with an Oxford Instruments INCA 250 x-ray analysis system. In addition to dedicated Gold and Carbon deposition equipment, the SEM features variable pressure operation allowing analysis of both conductive and non-conductive sample. The INCA 250 x-ray analysis system provides elemental analysis capabilities.
true
F10012
SESSIONS, NEIL
Clean Rooms - Integrated Photonics
The Integrated Photonics Cleanroom is a 200m² Class 1000 facility with local areas of Class 100, designed for planar processing of a very wide range of materials. The prime purpose of this facility is to be able to take raw materials, ORC-made materials, or commercial materials and process them to realise photonic devices for use in applications from telecommunications to all-optical data processing and from biochemical sensing to the lab-on-a-chip. Polishing and scanning electron microscopy are available outside the cleanroom. The major equipment items are: Karl-Suss MA6 double-sided mask aligner, OPT Plasmalab 400 Sputtering Machine, Ionafab 300 Plus Reactive Ion Beam Depostit/Etcher, Edwards Auto 306 thermal evaporators, Edwards Auto 306 electron beam evaporator, Materials Research 2300c Furnace, Severn (STS) 1200c Tube Furnace, Instron 600c Ion-Exchange Furnaces, KLA Tencor P-16 Stylus Profiler, Nikon LV100D Optical Microscope and Wet Benches for Chemical Processing.
The Integrated Photonics Cleanroom is a 200m² Class 1000 facility with local areas of Class 100, designed for planar processing of a very wide range of materials. The prime purpose of this facility is to be able to take raw materials, ORC-made materials, or commercial materials and process them to realise photonic devices for use in applications from telecommunications to all-optical data processing and from biochemical sensing to the lab-on-a-chip. Polishing and scanning electron microscopy are available outside the cleanroom. The major equipment items are: Karl-Suss MA6 double-sided mask aligner, OPT Plasmalab 400 Sputtering Machine, Ionafab 300 Plus Reactive Ion Beam Depostit/Etcher, Edwards Auto 306 thermal evaporators, Edwards Auto 306 electron beam evaporator, Materials Research 2300c Furnace, Severn (STS) 1200c Tube Furnace, Instron 600c Ion-Exchange Furnaces, KLA Tencor P-16 Stylus Profiler, Nikon LV100D Optical Microscope and Wet Benches for Chemical Processing.
The Integrated Photonics Cleanroom is a 200m² Class 1000 facility with local areas of Class 100, designed for planar processing of a very wide range of materials. The prime purpose of this facility is to be able to take raw materials, ORC-made materials, or commercial materials and process them to realise photonic devices for use in applications from telecommunications to all-optical data processing and from biochemical sensing to the lab-on-a-chip. Polishing and scanning electron microscopy are available outside the cleanroom. The major equipment items are: Karl-Suss MA6 double-sided mask aligner, OPT Plasmalab 400 Sputtering Machine, Ionafab 300 Plus Reactive Ion Beam Depostit/Etcher, Edwards Auto 306 thermal evaporators, Edwards Auto 306 electron beam evaporator, Materials Research 2300c Furnace, Severn (STS) 1200c Tube Furnace, Instron 600c Ion-Exchange Furnaces, KLA Tencor P-16 Stylus Profiler, Nikon LV100D Optical Microscope and Wet Benches for Chemical Processing.
true
F10010
SESSIONS, NEIL
Clean Rooms - Focused ion beam (FIB)
Allows focused ion beam milling, electron-beam lithography and ion/electron beam-induced deposition, with parallel high resolution imaging, for the production of complex nanostructures in a broad range of materials.
Specification: 0.9 nm electron beam and 5 nm ion beam resoultion - Gas injection for bea-induced deposition of gold and platinum - Nabity pattern generator - Electron - beam lithography capability - Kleidiek nanomanipulator for TEM sample lift-out (other tool options available inc. microfluidic injection and four-point electrical probe) - 5-axis motorized stage for samples up to 150mm dia. (larger without full rotation) and 20mm thick - Ability to accept complex CAD pattern files.
Allows focused ion beam milling, electron-beam lithography and ion/electron beam-induced deposition, with parallel high resolution imaging, for the production of complex nanostructures in a broad range of materials.
Specification: 0.9 nm electron beam and 5 nm ion beam resoultion - Gas injection for bea-induced deposition of gold and platinum - Nabity pattern generator - Electron - beam lithography capability - Kleidiek nanomanipulator for TEM sample lift-out (other tool options available inc. microfluidic injection and four-point electrical probe) - 5-axis motorized stage for samples up to 150mm dia. (larger without full rotation) and 20mm thick - Ability to accept complex CAD pattern files.
Allows focused ion beam milling, electron-beam lithography and ion/electron beam-induced deposition, with parallel high resolution imaging, for the production of complex nanostructures in a broad range of materials.
Specification: 0.9 nm electron beam and 5 nm ion beam resoultion - Gas injection for bea-induced deposition of gold and platinum - Nabity pattern generator - Electron - beam lithography capability - Kleidiek nanomanipulator for TEM sample lift-out (other tool options available inc. microfluidic injection and four-point electrical probe) - 5-axis motorized stage for samples up to 150mm dia. (larger without full rotation) and 20mm thick - Ability to accept complex CAD pattern files.
true
F10011
MACDONALD, KEVIN
Clean Rooms - Nanofabrication
The Southampton Nanofabrication Centre is a state-of-the-art facility for microfabrication and high-spec nanofabrication, as well as a wide range of characterisation capabilities housed in the new Mountbatten Complex at the University of Southampton. One of the premiere cleanrooms in Europe, the Centre has a uniquely broad range of technologies, combining traditional and novel top down fabrication with state-of-the-art bottom up fabrication. This allows us to develop and produce a wide range of devices in diverse fields such as electronics, nanotechnology and bionanotechnology and incorporate them into an equally comprehensive array of nano and microsystems for analysis and use. The characterisation capability is similarly extensive catalogue of microscopes and test gear, from nanometre resolution scanning microscopes to electrical, magnetic and RF analysis. A detailed equiment list can be found at http://www.southampton-nanofab.com/machineDatabase/
The Southampton Nanofabrication Centre is a state-of-the-art facility for microfabrication and high-spec nanofabrication, as well as a wide range of characterisation capabilities housed in the new Mountbatten Complex at the University of Southampton. One of the premiere cleanrooms in Europe, the Centre has a uniquely broad range of technologies, combining traditional and novel top down fabrication with state-of-the-art bottom up fabrication. This allows us to develop and produce a wide range of devices in diverse fields such as electronics, nanotechnology and bionanotechnology and incorporate them into an equally comprehensive array of nano and microsystems for analysis and use. The characterisation capability is similarly extensive catalogue of microscopes and test gear, from nanometre resolution scanning microscopes to electrical, magnetic and RF analysis. A detailed equiment list can be found at http://www.southampton-nanofab.com/machineDatabase/
The Southampton Nanofabrication Centre is a state-of-the-art facility for microfabrication and high-spec nanofabrication, as well as a wide range of characterisation capabilities housed in the new Mountbatten Complex at the University of Southampton. One of the premiere cleanrooms in Europe, the Centre has a uniquely broad range of technologies, combining traditional and novel top down fabrication with state-of-the-art bottom up fabrication. This allows us to develop and produce a wide range of devices in diverse fields such as electronics, nanotechnology and bionanotechnology and incorporate them into an equally comprehensive array of nano and microsystems for analysis and use. The characterisation capability is similarly extensive catalogue of microscopes and test gear, from nanometre resolution scanning microscopes to electrical, magnetic and RF analysis. A detailed equiment list can be found at http://www.southampton-nanofab.com/machineDatabase/
true
F10014
ANTENEY, IAIN
ECS - Characterisation (Measurement)
The clean room provides a range of characterisation equipment for device and material characterisation. Plan view imaging of a sample surface can be performed using field emission scanning electron microscopy (FESEM), helium ion microscopy and scanning probe microscopy. Cross-section imaging can be achieved by first making a cross-sectional cut using the focussed ion beam (FIB) system and then imaging in-situ using field emission scanning electron microscopy.
The clean room provides a range of characterisation equipment for device and material characterisation. Plan view imaging of a sample surface can be performed using field emission scanning electron microscopy (FESEM), helium ion microscopy and scanning probe microscopy. Cross-section imaging can be achieved by first making a cross-sectional cut using the focussed ion beam (FIB) system and then imaging in-situ using field emission scanning electron microscopy.
The clean room provides a range of characterisation equipment for device and material characterisation. Plan view imaging of a sample surface can be performed using field emission scanning electron microscopy (FESEM), helium ion microscopy and scanning probe microscopy. Cross-section imaging can be achieved by first making a cross-sectional cut using the focussed ion beam (FIB) system and then imaging in-situ using field emission scanning electron microscopy.
true
F10015
DE GROOT, CORNELIS
Mass Spectrometer
The range of mass spectrometers has grown to the point where the group now has a wide range of state-of-the-art systems capable of dealing with all sample types and a wide array of client demands. Staff capability has grown with retention and experience.
The range of mass spectrometers has grown to the point where the group now has a wide range of state-of-the-art systems capable of dealing with all sample types and a wide array of client demands. Staff capability has grown with retention and experience.
The range of mass spectrometers has grown to the point where the group now has a wide range of state-of-the-art systems capable of dealing with all sample types and a wide array of client demands. Staff capability has grown with retention and experience.
true
F10016
LANGLEY, GRAHAM
NMR Spectroscopy Facility
The NMR Spectroscopy Facility currently has four Bruker FT-NMR Spectrometers. AV300/1, AV300/2 DPX 400/1 and DPX 400/2. For full details of our capabilities, sample booking and staff at the facility please vitit our website.
The NMR Spectroscopy Facility currently has four Bruker FT-NMR Spectrometers. AV300/1, AV300/2 DPX 400/1 and DPX 400/2. For full details of our capabilities, sample booking and staff at the facility please vitit our website.
The NMR Spectroscopy Facility currently has four Bruker FT-NMR Spectrometers. AV300/1, AV300/2 DPX 400/1 and DPX 400/2. For full details of our capabilities, sample booking and staff at the facility please vitit our website.
true
F10017
WELLS, NEIL
Single Crystal Diffraction (SXD) Facilities
The state of the art instrumentation at the SXD Facility enables us to look at extremely small crystals down to sizes of tens of microns and provides the ability of high throughput analysis of more routine samples.
The state of the art instrumentation at the SXD Facility enables us to look at extremely small crystals down to sizes of tens of microns and provides the ability of high throughput analysis of more routine samples.
The state of the art instrumentation at the SXD Facility enables us to look at extremely small crystals down to sizes of tens of microns and provides the ability of high throughput analysis of more routine samples.
false
F10018
LIGHT, MARK
Powder Diffraction (PXD) Facilities
The D5000 and D8 can be used in a number of analytical situations ranging from the study of clays and materials to polymers and pharmaceuticals. The list below covers some of the main possibilities: Simple characterization; Phase analysis, both quatitative and qualitative, and Quality control monitoring.
The D5000 and D8 can be used in a number of analytical situations ranging from the study of clays and materials to polymers and pharmaceuticals. The list below covers some of the main possibilities: Simple characterization; Phase analysis, both quatitative and qualitative, and Quality control monitoring.
The D5000 and D8 can be used in a number of analytical situations ranging from the study of clays and materials to polymers and pharmaceuticals. The list below covers some of the main possibilities: Simple characterization; Phase analysis, both quatitative and qualitative, and Quality control monitoring.
false
F10019
LIGHT, MARK
6-Axis
The 6-axis Motion Simulator is able to provide motion in all three translation axes (fore-and-aft, lateral, and vertical) and all three rotational axes (roll, pitch, and yaw). The moving platform is approximately 3 meter by 2 meter and can support payloads up to 1000 kg. It is able to accurately reproduce motions in 6-axis with very low levels of background vibration, waveform distortion, and cross-axis motion.
The 6-axis Motion Simulator is able to provide motion in all three translation axes (fore-and-aft, lateral, and vertical) and all three rotational axes (roll, pitch, and yaw). The moving platform is approximately 3 meter by 2 meter and can support payloads up to 1000 kg. It is able to accurately reproduce motions in 6-axis with very low levels of background vibration, waveform distortion, and cross-axis motion.
The 6-axis Motion Simulator is able to provide motion in all three translation axes (fore-and-aft, lateral, and vertical) and all three rotational axes (roll, pitch, and yaw). The moving platform is approximately 3 meter by 2 meter and can support payloads up to 1000 kg. It is able to accurately reproduce motions in 6-axis with very low levels of background vibration, waveform distortion, and cross-axis motion.
false
F10052
to be assigned, Dummy
1m Vertical
This vibrator is a single-axis human-rated electro-hydraulic vibrator used to provide vertical oscillation.
This vibrator is a single-axis human-rated electro-hydraulic vibrator used to provide vertical oscillation.
This vibrator is a single-axis human-rated electro-hydraulic vibrator used to provide vertical oscillation.
false
F10053
to be assigned, Dummy
1m Horizontal
This single-axis human-rated electro-hydraulic vibrator is used to provide horizontal oscillation.
This single-axis human-rated electro-hydraulic vibrator is used to provide horizontal oscillation.
This single-axis human-rated electro-hydraulic vibrator is used to provide horizontal oscillation.
false
F10054
to be assigned, Dummy
Electrodynamic Shakers
The Human Factors Research Unit laboratory has a wide range of electrodynamic vibrators of varying displacements up to 50 mm. Smaller vibrators are suitable for hand-arm vibration studies while the larger vibrators are capable of supporting a person while applying a vibration.
The Human Factors Research Unit laboratory has a wide range of electrodynamic vibrators of varying displacements up to 50 mm. Smaller vibrators are suitable for hand-arm vibration studies while the larger vibrators are capable of supporting a person while applying a vibration.
The Human Factors Research Unit laboratory has a wide range of electrodynamic vibrators of varying displacements up to 50 mm. Smaller vibrators are suitable for hand-arm vibration studies while the larger vibrators are capable of supporting a person while applying a vibration.
false
F10056
to be assigned, Dummy
Indenter Rig
The indenter rig can be used to measure the dynamic stiffness of seat cushions and the dynamic characteristics of suspension seat components such as dampers and springs. It may be used to conduct a quasi-static compression test for measuring load-deflection curves of seat cushions.
The indenter rig can be used to measure the dynamic stiffness of seat cushions and the dynamic characteristics of suspension seat components such as dampers and springs. It may be used to conduct a quasi-static compression test for measuring load-deflection curves of seat cushions.
The indenter rig can be used to measure the dynamic stiffness of seat cushions and the dynamic characteristics of suspension seat components such as dampers and springs. It may be used to conduct a quasi-static compression test for measuring load-deflection curves of seat cushions.
false
F10057
to be assigned, Dummy
Biomechanics Laboratory
The biomechanics laboratory is a facility that enables analysis of human movement through the measurement of joint angles, muscle activity, and the external and internal forces acting on the body. The laboratory is used to explore the mechanisms of pathology that lead to movement dysfunction and aids in the development and assesses the effectiveness of treatment and rehabilitation. The high specification motion capture system enables a vast array of movement to be analysed from walking, through to the upper limb and the small intricate movements of the hand and fingers.
The biomechanics laboratory is a facility that enables analysis of human movement through the measurement of joint angles, muscle activity, and the external and internal forces acting on the body. The laboratory is used to explore the mechanisms of pathology that lead to movement dysfunction and aids in the development and assesses the effectiveness of treatment and rehabilitation. The high specification motion capture system enables a vast array of movement to be analysed from walking, through to the upper limb and the small intricate movements of the hand and fingers.
The biomechanics laboratory is a facility that enables analysis of human movement through the measurement of joint angles, muscle activity, and the external and internal forces acting on the body. The laboratory is used to explore the mechanisms of pathology that lead to movement dysfunction and aids in the development and assesses the effectiveness of treatment and rehabilitation. The high specification motion capture system enables a vast array of movement to be analysed from walking, through to the upper limb and the small intricate movements of the hand and fingers.
false
F10058
WARNER, MARTIN
Secure Data Laboratory (S3RI)
Secure data laboratory with isolated Personal Computers and a Secure cluster (Jupiter) 32 processor cores, 65 GB of memory 1 TB of local storage and 3TB remote storage via a SAN.
Secure data laboratory with isolated Personal Computers and a Secure cluster (Jupiter) 32 processor cores, 65 GB of memory 1 TB of local storage and 3TB remote storage via a SAN.
Secure data laboratory with isolated Personal Computers and a Secure cluster (Jupiter) 32 processor cores, 65 GB of memory 1 TB of local storage and 3TB remote storage via a SAN.
false
F10059
BROWN, JAMES
Pressure Lab (Hyperbaric aquarium)
The pressure lab enables us to study deep-sea organisms under pressurised conditions. It is based around two IPOCAMPs (Incubateur Pressurisé pour l¿Observation et la Culture d¿Animaux Marins Profonds). The lab is also equipped with a number of smaller pressure vessels that are also used to study the effects of pressure on the ecology and physiology of marine invertebrates.
The pressure lab enables us to study deep-sea organisms under pressurised conditions. It is based around two IPOCAMPs (Incubateur Pressurisé pour l¿Observation et la Culture d¿Animaux Marins Profonds). The lab is also equipped with a number of smaller pressure vessels that are also used to study the effects of pressure on the ecology and physiology of marine invertebrates.
The pressure lab enables us to study deep-sea organisms under pressurised conditions. It is based around two IPOCAMPs (Incubateur Pressurisé pour l¿Observation et la Culture d¿Animaux Marins Profonds). The lab is also equipped with a number of smaller pressure vessels that are also used to study the effects of pressure on the ecology and physiology of marine invertebrates.
false
F10060
THATJE, SVEN
Research Aquarium
We have a multi-use aquarium, with a variety of tanks and facilities for keeping and handling live specimens. In the entrance, large observation tanks contain different biotopes, displaying animals from a variety of habitats, including seagrass beds and rocky shores. We also have a shallow open tank that simulates a rock pool environment and this has anemones and cryptic fish. The rest of the aquarium has various types of holding tanks suited to small fish and invertebrates that need to be easily accessed and monitored. Some are glass for all round viewing, while others have solid sides and are open only at the top to minimise disturbance. Wet and dry benches are used to set up experiments in controlled systems and with replicates.
We have a multi-use aquarium, with a variety of tanks and facilities for keeping and handling live specimens. In the entrance, large observation tanks contain different biotopes, displaying animals from a variety of habitats, including seagrass beds and rocky shores. We also have a shallow open tank that simulates a rock pool environment and this has anemones and cryptic fish. The rest of the aquarium has various types of holding tanks suited to small fish and invertebrates that need to be easily accessed and monitored. Some are glass for all round viewing, while others have solid sides and are open only at the top to minimise disturbance. Wet and dry benches are used to set up experiments in controlled systems and with replicates.
We have a multi-use aquarium, with a variety of tanks and facilities for keeping and handling live specimens. In the entrance, large observation tanks contain different biotopes, displaying animals from a variety of habitats, including seagrass beds and rocky shores. We also have a shallow open tank that simulates a rock pool environment and this has anemones and cryptic fish. The rest of the aquarium has various types of holding tanks suited to small fish and invertebrates that need to be easily accessed and monitored. Some are glass for all round viewing, while others have solid sides and are open only at the top to minimise disturbance. Wet and dry benches are used to set up experiments in controlled systems and with replicates.
false
F10061
ROBINSON, ROBERT
Coral Reef Laboratory
Our Coral Reef Laboratory propogates and studies a broad range of corals and other cnidarians in a multi-compartment aquarium system circulating more than 4200 litres of artificial seawater. Complemented by a coral reef display tank used for propogation and teaching, it supports experimentation under tightly controlled conditions.
Our Coral Reef Laboratory propogates and studies a broad range of corals and other cnidarians in a multi-compartment aquarium system circulating more than 4200 litres of artificial seawater. Complemented by a coral reef display tank used for propogation and teaching, it supports experimentation under tightly controlled conditions.
Our Coral Reef Laboratory propogates and studies a broad range of corals and other cnidarians in a multi-compartment aquarium system circulating more than 4200 litres of artificial seawater. Complemented by a coral reef display tank used for propogation and teaching, it supports experimentation under tightly controlled conditions.
false
F10062
WIEDENMANN, JOERG
Research Vessels
Used by staff and students for a range of fieldwork and research, our vessels include R.V. Callista, a 19.75m catamaran designed and equipped for a range of coastal and shelf research, and a 12m research vessel, R.V. Bill Conway, for use in local waters. Other nearshore work can be conducted from our RIB. All vessels carry basic standard equipment, but can be further fitted from our range of oceanographic field equipment to suit individual requirements. Vessels may also be available for commercial hire.
Used by staff and students for a range of fieldwork and research, our vessels include R.V. Callista, a 19.75m catamaran designed and equipped for a range of coastal and shelf research, and a 12m research vessel, R.V. Bill Conway, for use in local waters. Other nearshore work can be conducted from our RIB. All vessels carry basic standard equipment, but can be further fitted from our range of oceanographic field equipment to suit individual requirements. Vessels may also be available for commercial hire.
Used by staff and students for a range of fieldwork and research, our vessels include R.V. Callista, a 19.75m catamaran designed and equipped for a range of coastal and shelf research, and a 12m research vessel, R.V. Bill Conway, for use in local waters. Other nearshore work can be conducted from our RIB. All vessels carry basic standard equipment, but can be further fitted from our range of oceanographic field equipment to suit individual requirements. Vessels may also be available for commercial hire.
false
F10063
FISHER, GARY
Scientific Glass Blowing Facility
Also known as ¿flame working¿ the most common glass in use is Boroscilicate (Pyrex) but many other types and grades of glass are used on a regular basis depending on the application of the apparatus. We have a fully equipped workshop with 3 fully qualified glassblowers. Visit our website for further information and to discuss requirements.
Also known as ¿flame working¿ the most common glass in use is Boroscilicate (Pyrex) but many other types and grades of glass are used on a regular basis depending on the application of the apparatus. We have a fully equipped workshop with 3 fully qualified glassblowers. Visit our website for further information and to discuss requirements.
Also known as ¿flame working¿ the most common glass in use is Boroscilicate (Pyrex) but many other types and grades of glass are used on a regular basis depending on the application of the apparatus. We have a fully equipped workshop with 3 fully qualified glassblowers. Visit our website for further information and to discuss requirements.
false
F10064
to be assigned, Dummy
Carbonate Chemistry Facility
The NERC funded facility analyses seawater samples for carbonate variables, and has state-of-the-art instrumentation. Advice is provided on sampling, sample handling and storage. We also undertake carbonate chemistry calculations following total alkalinity and dissolved inorganic carbon analysis, providing pCO2, pH and other carbonate chemistry variables.
The NERC funded facility analyses seawater samples for carbonate variables, and has state-of-the-art instrumentation. Advice is provided on sampling, sample handling and storage. We also undertake carbonate chemistry calculations following total alkalinity and dissolved inorganic carbon analysis, providing pCO2, pH and other carbonate chemistry variables.
The NERC funded facility analyses seawater samples for carbonate variables, and has state-of-the-art instrumentation. Advice is provided on sampling, sample handling and storage. We also undertake carbonate chemistry calculations following total alkalinity and dissolved inorganic carbon analysis, providing pCO2, pH and other carbonate chemistry variables.
false
F10065
ACHTERBERG, ERIC
Dissolved Organic Carbon and Total Dissolved Nitrogen Facility
This is our facility to analyse dissolved organic carbon and total dissolved nitrogen in seawater and freshwater samples. The NERC facility analyses seawater samples using state-of-the-art instrumentation (Shimadzu TOV V CPN-TN). Advice is provided on sampling, sample handling and storage.
This is our facility to analyse dissolved organic carbon and total dissolved nitrogen in seawater and freshwater samples. The NERC facility analyses seawater samples using state-of-the-art instrumentation (Shimadzu TOV V CPN-TN). Advice is provided on sampling, sample handling and storage.
This is our facility to analyse dissolved organic carbon and total dissolved nitrogen in seawater and freshwater samples. The NERC facility analyses seawater samples using state-of-the-art instrumentation (Shimadzu TOV V CPN-TN). Advice is provided on sampling, sample handling and storage.
false
F10066
ACHTERBERG, ERIC
The Mechanical Workshop
This well-equipped facility has provision for large capacity and precision machining as well as horizontal boring. We have a welding facility that uses the tungsten inert gas technique to weld aluminium and stainless steel to ultra high vacuum standards.
This well-equipped facility has provision for large capacity and precision machining as well as horizontal boring. We have a welding facility that uses the tungsten inert gas technique to weld aluminium and stainless steel to ultra high vacuum standards.
This well-equipped facility has provision for large capacity and precision machining as well as horizontal boring. We have a welding facility that uses the tungsten inert gas technique to weld aluminium and stainless steel to ultra high vacuum standards.
false
F10067
DALLEY, ROBERT
Southampton Chemistry Analytical Solutions (SCAS)
The staff of SCAS are analytical chemists with many years of experience and expert knowledge in their respective areas. SCAS incorporates mass spectrometry, NMR spectroscopy and X-ray diffraction to offer: Routine analysis and Custom designed analytical solutions.
The staff of SCAS are analytical chemists with many years of experience and expert knowledge in their respective areas. SCAS incorporates mass spectrometry, NMR spectroscopy and X-ray diffraction to offer: Routine analysis and Custom designed analytical solutions.
The staff of SCAS are analytical chemists with many years of experience and expert knowledge in their respective areas. SCAS incorporates mass spectrometry, NMR spectroscopy and X-ray diffraction to offer: Routine analysis and Custom designed analytical solutions.
false
F10068
to be assigned, Dummy
The Tony Davies High Voltage Laboratory
The Tony Davies HV Laboratory is an active centre for research into dielectric materials and insulation systems, as well as high voltage and related phenomena. We are also a commercial testing house and consultancy service. It is equipped with state-of-the-art facilities, supported by a specialist engineering team who are all actively involved in internationally leading research.
The Tony Davies HV Laboratory is an active centre for research into dielectric materials and insulation systems, as well as high voltage and related phenomena. We are also a commercial testing house and consultancy service. It is equipped with state-of-the-art facilities, supported by a specialist engineering team who are all actively involved in internationally leading research.
The Tony Davies HV Laboratory is an active centre for research into dielectric materials and insulation systems, as well as high voltage and related phenomena. We are also a commercial testing house and consultancy service. It is equipped with state-of-the-art facilities, supported by a specialist engineering team who are all actively involved in internationally leading research.
false
F10069
LEWIN, PAUL
Thermal Characterisation
Differential Scanning Calorimetry and Hot Stage Microscopy.Thermal analysis of a material is concerned with the monitoring of property changes as a function of temperature. These techniques enable us to probe such phenomena as polymorphism, phase transitions, stability and formulation in pharmaceutical and other material. The properties we can measure are defined by the apparatus in the facility.
Differential Scanning Calorimetry and Hot Stage Microscopy.Thermal analysis of a material is concerned with the monitoring of property changes as a function of temperature. These techniques enable us to probe such phenomena as polymorphism, phase transitions, stability and formulation in pharmaceutical and other material. The properties we can measure are defined by the apparatus in the facility.
Differential Scanning Calorimetry and Hot Stage Microscopy.Thermal analysis of a material is concerned with the monitoring of property changes as a function of temperature. These techniques enable us to probe such phenomena as polymorphism, phase transitions, stability and formulation in pharmaceutical and other material. The properties we can measure are defined by the apparatus in the facility.
false
F10070
PITAK, MATEUSZ
Transportation Systems Research Laboratory (TSRL)
The Transport Systems Research Laboratory (TSRL) is a cross-sectoral, multi-disciplinary facility that has been established within the School of Engineering Sciences at the University of Southampton. In conjunction with the adjacent Materials and Structures Laboratories, the TSRL provides a major regional and national centre for mechanics research with the primary objective of fostering scholarship and scientific enquiry into the behaviour of materials and structures. Work carried out in the laboratory addresses microstructure-property relationships, material-structure synthesis, design-production coupling and fluid-structure interactions.
The Transport Systems Research Laboratory (TSRL) is a cross-sectoral, multi-disciplinary facility that has been established within the School of Engineering Sciences at the University of Southampton. In conjunction with the adjacent Materials and Structures Laboratories, the TSRL provides a major regional and national centre for mechanics research with the primary objective of fostering scholarship and scientific enquiry into the behaviour of materials and structures. Work carried out in the laboratory addresses microstructure-property relationships, material-structure synthesis, design-production coupling and fluid-structure interactions.
The Transport Systems Research Laboratory (TSRL) is a cross-sectoral, multi-disciplinary facility that has been established within the School of Engineering Sciences at the University of Southampton. In conjunction with the adjacent Materials and Structures Laboratories, the TSRL provides a major regional and national centre for mechanics research with the primary objective of fostering scholarship and scientific enquiry into the behaviour of materials and structures. Work carried out in the laboratory addresses microstructure-property relationships, material-structure synthesis, design-production coupling and fluid-structure interactions.
true
F10071
BARTON, JANICE
Autonomous Vehicle Control Systems Laboratory
The autonomous vehicle control systems laboratory has been formed by a merger of all research efforts on intelligent control systems for autonomous vehicles developed at the University of Southampton. This includes advanced guidance, navigation and feedback control methods, agent based control with mission execution capabilities, formal verification of hardware and software systems, fault tolerant and reconfigurable control, hybrid systems modelling and software engineering of intelligent vehicles for practical engineering.
The autonomous vehicle control systems laboratory has been formed by a merger of all research efforts on intelligent control systems for autonomous vehicles developed at the University of Southampton. This includes advanced guidance, navigation and feedback control methods, agent based control with mission execution capabilities, formal verification of hardware and software systems, fault tolerant and reconfigurable control, hybrid systems modelling and software engineering of intelligent vehicles for practical engineering.
The autonomous vehicle control systems laboratory has been formed by a merger of all research efforts on intelligent control systems for autonomous vehicles developed at the University of Southampton. This includes advanced guidance, navigation and feedback control methods, agent based control with mission execution capabilities, formal verification of hardware and software systems, fault tolerant and reconfigurable control, hybrid systems modelling and software engineering of intelligent vehicles for practical engineering.
false
F10072
SCANLAN, JAMES
The Creative Services Centre
The CSC has invested heavily in industry standard equipment to translate the innovative ideas of its students into a tangible form. Whilst student and staff support is the guiding principle of CSC, nonetheless the School has identified capacity for the CSC to market its design and production capabilities to potential customers from the locality. In particular CSC is eager to engage with community, voluntary and charitable organisations which require the range of services it is able to offer.
The CSC has invested heavily in industry standard equipment to translate the innovative ideas of its students into a tangible form. Whilst student and staff support is the guiding principle of CSC, nonetheless the School has identified capacity for the CSC to market its design and production capabilities to potential customers from the locality. In particular CSC is eager to engage with community, voluntary and charitable organisations which require the range of services it is able to offer.
The CSC has invested heavily in industry standard equipment to translate the innovative ideas of its students into a tangible form. Whilst student and staff support is the guiding principle of CSC, nonetheless the School has identified capacity for the CSC to market its design and production capabilities to potential customers from the locality. In particular CSC is eager to engage with community, voluntary and charitable organisations which require the range of services it is able to offer.
false
F10073
to be assigned, Dummy
High Resolution Marine Geophysics
We have 20 years experience of collecting high resolution geophysical data for research projects as diverse as small object detection (including forensic work); wreck based surveys; Quaternary natural and archaeological landscape studies; neotectonics; and large scale sedimentological and structural analysis. We have acquired data in settings as diverse as Icelandic lakes; offshore New Zealand; the Corinth Rift; Windermere in the Lake District; and the Indus Fan.
The group has its own Chirp, Boomer and Sparker sources. These can be recorded with a single channel hydrophone onto a Coda acquisition system, or using a 60-channel 1m group spacing multichannel hydrophone onto a Geometrics Strataview recorder. The group also has several multibeam systems (Reson 8160, 7101, 8125) and a Geoacoustics sidescan sonar system. This enables to acquire data from water depths of 2000m to the coastal strip.
We also have the capability to process and interpret this wide range of data through a
We have 20 years experience of collecting high resolution geophysical data for research projects as diverse as small object detection (including forensic work); wreck based surveys; Quaternary natural and archaeological landscape studies; neotectonics; and large scale sedimentological and structural analysis. We have acquired data in settings as diverse as Icelandic lakes; offshore New Zealand; the Corinth Rift; Windermere in the Lake District; and the Indus Fan.
The group has its own Chirp, Boomer and Sparker sources. These can be recorded with a single channel hydrophone onto a Coda acquisition system, or using a 60-channel 1m group spacing multichannel hydrophone onto a Geometrics Strataview recorder. The group also has several multibeam systems (Reson 8160, 7101, 8125) and a Geoacoustics sidescan sonar system. This enables to acquire data from water depths of 2000m to the coastal strip.
We also have the capability to process and interpret this wide range of data through a
We have 20 years experience of collecting high resolution geophysical data for research projects as diverse as small object detection (including forensic work); wreck based surveys; Quaternary natural and archaeological landscape studies; neotectonics; and large scale sedimentological and structural analysis. We have acquired data in settings as diverse as Icelandic lakes; offshore New Zealand; the Corinth Rift; Windermere in the Lake District; and the Indus Fan.
The group has its own Chirp, Boomer and Sparker sources. These can be recorded with a single channel hydrophone onto a Coda acquisition system, or using a 60-channel 1m group spacing multichannel hydrophone onto a Geometrics Strataview recorder. The group also has several multibeam systems (Reson 8160, 7101, 8125) and a Geoacoustics sidescan sonar system. This enables to acquire data from water depths of 2000m to the coastal strip.
We also have the capability to process and interpret this wide range of data through a
false
F10074
DIX, JUSTIN
3D Chrip
3D Chirp is a surface-towed sub-bottom profiling system capable of imaging the upper tens of metres of the sub-surface in three dimensions with decimetric horizontal and centimetric vertical resolution. This system was developed by the University of Southampton in collaboration with GeoAcoustics Ltd. The combination of the known, highly repeatable Chirp source, with the coherent processing and interpretation afforded by true 3D seismic volumes provides the perfect base for shallow-water engineering, archaeology, military, and geological studies. Please visit the following website for more information
3D Chirp is a surface-towed sub-bottom profiling system capable of imaging the upper tens of metres of the sub-surface in three dimensions with decimetric horizontal and centimetric vertical resolution. This system was developed by the University of Southampton in collaboration with GeoAcoustics Ltd. The combination of the known, highly repeatable Chirp source, with the coherent processing and interpretation afforded by true 3D seismic volumes provides the perfect base for shallow-water engineering, archaeology, military, and geological studies. Please visit the following website for more information
3D Chirp is a surface-towed sub-bottom profiling system capable of imaging the upper tens of metres of the sub-surface in three dimensions with decimetric horizontal and centimetric vertical resolution. This system was developed by the University of Southampton in collaboration with GeoAcoustics Ltd. The combination of the known, highly repeatable Chirp source, with the coherent processing and interpretation afforded by true 3D seismic volumes provides the perfect base for shallow-water engineering, archaeology, military, and geological studies. Please visit the following website for more information
false
F10075
BULL, JONATHAN
OBIC
The Ocean Bottom Instrumentation Consortium aims to provide the academic and commercial communities with access to multi-sensor, versatile seabed instruments to enable sub-surface geophysical imaging at high vertical and lateral resolution. We have 50 seabed platforms with hydrophones and 3-component short period geophones; 14 instruments can be deployed as electric field receivers for active EM experiments; 9 instruments can be deployed with differential pressure gauges for long-term earthquake studies. Broadband seismic receivers are currently under development. NERC-funded projects are carried out under Pay as You Go terms as part of the Geophysical Equipment Facility; these costs appear on grant proposals but may be outside of the £1.2M cap on standard grants.
The Ocean Bottom Instrumentation Consortium aims to provide the academic and commercial communities with access to multi-sensor, versatile seabed instruments to enable sub-surface geophysical imaging at high vertical and lateral resolution. We have 50 seabed platforms with hydrophones and 3-component short period geophones; 14 instruments can be deployed as electric field receivers for active EM experiments; 9 instruments can be deployed with differential pressure gauges for long-term earthquake studies. Broadband seismic receivers are currently under development. NERC-funded projects are carried out under Pay as You Go terms as part of the Geophysical Equipment Facility; these costs appear on grant proposals but may be outside of the £1.2M cap on standard grants.
The Ocean Bottom Instrumentation Consortium aims to provide the academic and commercial communities with access to multi-sensor, versatile seabed instruments to enable sub-surface geophysical imaging at high vertical and lateral resolution. We have 50 seabed platforms with hydrophones and 3-component short period geophones; 14 instruments can be deployed as electric field receivers for active EM experiments; 9 instruments can be deployed with differential pressure gauges for long-term earthquake studies. Broadband seismic receivers are currently under development. NERC-funded projects are carried out under Pay as You Go terms as part of the Geophysical Equipment Facility; these costs appear on grant proposals but may be outside of the £1.2M cap on standard grants.
false
F10076
to be assigned, Dummy
Telecommunications Laboratories
The Telecommunications laboratories consist of a suite of three experimental facilities which have recently benefitted from a £1M investment. The state-of-the-art optical communications system laboratory is equipped with the equipment required to undertake optical transmission and data processing experiments at symbol rates of up to 640 Gbaud and DWDM experiments at channel counts of up to 40 wavelengths. The laboratory has immediate access to the Aurora dark fibre line, allowing transmission experimentation in an installed fibre link.
The Telecommunications laboratories consist of a suite of three experimental facilities which have recently benefitted from a £1M investment. The state-of-the-art optical communications system laboratory is equipped with the equipment required to undertake optical transmission and data processing experiments at symbol rates of up to 640 Gbaud and DWDM experiments at channel counts of up to 40 wavelengths. The laboratory has immediate access to the Aurora dark fibre line, allowing transmission experimentation in an installed fibre link.
The Telecommunications laboratories consist of a suite of three experimental facilities which have recently benefitted from a £1M investment. The state-of-the-art optical communications system laboratory is equipped with the equipment required to undertake optical transmission and data processing experiments at symbol rates of up to 640 Gbaud and DWDM experiments at channel counts of up to 40 wavelengths. The laboratory has immediate access to the Aurora dark fibre line, allowing transmission experimentation in an installed fibre link.
false
F10077
PETROPOULOS, PERIKLIS
NIHR Wellcome Trust Clinical Research Facility
The NIHR Wellcome Trust Clinical Research Facility (WTCRF) is based in the Southampton Centre for Biomedical Research at Southampton General Hospital. It provides modern, dedicated facilities for researchers and their volunteers, together with a team of experienced research nurses and support staff. The focus is on clinical and translational research that will deliver maximum patient benefit across a wide range of diseases and conditions. Please visit the website for more information about the facility and equipment available.
The NIHR Wellcome Trust Clinical Research Facility (WTCRF) is based in the Southampton Centre for Biomedical Research at Southampton General Hospital. It provides modern, dedicated facilities for researchers and their volunteers, together with a team of experienced research nurses and support staff. The focus is on clinical and translational research that will deliver maximum patient benefit across a wide range of diseases and conditions. Please visit the website for more information about the facility and equipment available.
The NIHR Wellcome Trust Clinical Research Facility (WTCRF) is based in the Southampton Centre for Biomedical Research at Southampton General Hospital. It provides modern, dedicated facilities for researchers and their volunteers, together with a team of experienced research nurses and support staff. The focus is on clinical and translational research that will deliver maximum patient benefit across a wide range of diseases and conditions. Please visit the website for more information about the facility and equipment available.
false
F10078
TAMBELLINI, ENRICO
Biometrics Laboratory
The lab is used primarily for collecting biometric data. We acquire images of a walking subject, the subject`s face and the subject`s ear. (We pioneered using gait as a biometric and were amongst the first to show that people can be recognised by their ear shape.) The gait images are multiview and acquired in controlled lighting, enabling 3D reconstruction of the walking subject acquired again in controlled lighting; the face images are acquired as the subject walks towards the camera; the ear image is single shot acquired using a flash. The background is patterned chromakey, allowing calibration and matteing.
The lab is used primarily for collecting biometric data. We acquire images of a walking subject, the subject`s face and the subject`s ear. (We pioneered using gait as a biometric and were amongst the first to show that people can be recognised by their ear shape.) The gait images are multiview and acquired in controlled lighting, enabling 3D reconstruction of the walking subject acquired again in controlled lighting; the face images are acquired as the subject walks towards the camera; the ear image is single shot acquired using a flash. The background is patterned chromakey, allowing calibration and matteing.
The lab is used primarily for collecting biometric data. We acquire images of a walking subject, the subject`s face and the subject`s ear. (We pioneered using gait as a biometric and were amongst the first to show that people can be recognised by their ear shape.) The gait images are multiview and acquired in controlled lighting, enabling 3D reconstruction of the walking subject acquired again in controlled lighting; the face images are acquired as the subject walks towards the camera; the ear image is single shot acquired using a flash. The background is patterned chromakey, allowing calibration and matteing.
false
F10079
NIXON, MARK
Facscanto Flow Cytometer
Old equipment. Recommend using FACS Facility.
Old equipment. Recommend using FACS Facility.
Old equipment. Recommend using FACS Facility.
E10055
REEVE, PAUL
Beckton Dickinson BD FACSAria
E10073
REEVE, PAUL
Facscalibur Basic
FACSCalibur from Becton Dickinson is a four-color, dual-laser, bench top flow cytometry system that provides both cell analysis and sorting. This fully integrated multiparameter system can also perform a range of functions.
FACSCalibur from Becton Dickinson is a four-color, dual-laser, bench top flow cytometry system that provides both cell analysis and sorting. This fully integrated multiparameter system can also perform a range of functions.
FACSCalibur from Becton Dickinson is a four-color, dual-laser, bench top flow cytometry system that provides both cell analysis and sorting. This fully integrated multiparameter system can also perform a range of functions.
E10088
MCGUIRE, CAROLANN
Li-Cor Biosciences Odyssey
Infrared imaging system for scanning and analysis of Western Blots, cell-based assays, gel stainings, protein assays and tissue sections
2 diode lasers (685 nm and 785 nm)
2 independent infrared detection channels
Odyssey Application Software
Infrared imaging system for scanning and analysis of Western Blots, cell-based assays, gel stainings, protein assays and tissue sections
2 diode lasers (685 nm and 785 nm)
2 independent infrared detection channels
Odyssey Application Software
Infrared imaging system for scanning and analysis of Western Blots, cell-based assays, gel stainings, protein assays and tissue sections
2 diode lasers (685 nm and 785 nm)
2 independent infrared detection channels
Odyssey Application Software
E10094
WILLETT, MARK
Confocal Imaging System
E10095
NEWLAND, PHILIP
TriVersa NanoMate
Nano ESI infusion source
Nano ESI infusion source
Nano ESI infusion source
E10098
SKIPP, PAUL
Waters Synapt HDMS (G2-S) ESI & MALDI mass spectrometer + nano acquity LC system
High resolution mass spectrometer
High resolution mass spectrometer
High resolution mass spectrometer
E10101
SKIPP, PAUL
Nanoscope 3 / Multimode Afm Microscope
Multitasking controller for atomic force microscopes (AFM). Local ID: PH/01785
Multitasking controller for atomic force microscopes (AFM). Local ID: PH/01785
Multitasking controller for atomic force microscopes (AFM). Local ID: PH/01785
E10001
LEBLANC, KATHLEEN
Atomic Force Microscope
Explorer atomic force microscope (AFM) capable of imaging in non-contact (NC) and contact mode. Local ID: PH/01717
Explorer atomic force microscope (AFM) capable of imaging in non-contact (NC) and contact mode. Local ID: PH/01717
Explorer atomic force microscope (AFM) capable of imaging in non-contact (NC) and contact mode. Local ID: PH/01717
E10002
GILES, ANDREW
DM5000B Microscope
The automated Leica DM5000 B microscope for live cell analysis and cell morphology studies features a coded 7x nosepiece, manual z-focus, fully automated transmitted light axis, and automated 5x or 8x fluorescence axis. In addition to automated brightfield, darkfield, phase, and polarization contrast, the Leica DM5000 B features fully automated Differential Interference Contrast (DIC).
Dedicated software together with the motorized fluorescence axis make the Leica DM5000 B ideal for advanced fluorescence applications involving fixed cells, live cells, and tissues.
The automated Leica DM5000 B microscope for live cell analysis and cell morphology studies features a coded 7x nosepiece, manual z-focus, fully automated transmitted light axis, and automated 5x or 8x fluorescence axis. In addition to automated brightfield, darkfield, phase, and polarization contrast, the Leica DM5000 B features fully automated Differential Interference Contrast (DIC).
Dedicated software together with the motorized fluorescence axis make the Leica DM5000 B ideal for advanced fluorescence applications involving fixed cells, live cells, and tissues.
The automated Leica DM5000 B microscope for live cell analysis and cell morphology studies features a coded 7x nosepiece, manual z-focus, fully automated transmitted light axis, and automated 5x or 8x fluorescence axis. In addition to automated brightfield, darkfield, phase, and polarization contrast, the Leica DM5000 B features fully automated Differential Interference Contrast (DIC).
Dedicated software together with the motorized fluorescence axis make the Leica DM5000 B ideal for advanced fluorescence applications involving fixed cells, live cells, and tissues.
E10097
TEELING, JESSICA
Carl Zeiss Axiovert 200
Widefield fluorescence microscopy system with fixed stage and electrophysiology equipment:
upright stand ¿ Zeiss Axioskop 2 FS mot
Burleigh Gibraltar platform and XY- stage
HBO 100 incident light illuminator
DAPI, FITC and Rhodamine filter cubes for fluorescence microscopy
air objective (10x/0.30)
water dipping objectives (40x/0.80, 63x/0.90)
DIC optics
AxioCam MRm monochrome camera
AvioVision software for image acquisition and analysis
Warner Instruments recording chamber and dual automatic temperature controller
Burleigh PCS 5000 micromanipulator
Axon-Instruments Axoclamp 2B
Axon-Instruments Axopatch 200B
Axon-Instruments pClamp 9 data acquisition and analysis software for electrophysiology
Widefield fluorescence microscopy system with fixed stage and electrophysiology equipment:
upright stand ¿ Zeiss Axioskop 2 FS mot
Burleigh Gibraltar platform and XY- stage
HBO 100 incident light illuminator
DAPI, FITC and Rhodamine filter cubes for fluorescence microscopy
air objective (10x/0.30)
water dipping objectives (40x/0.80, 63x/0.90)
DIC optics
AxioCam MRm monochrome camera
AvioVision software for image acquisition and analysis
Warner Instruments recording chamber and dual automatic temperature controller
Burleigh PCS 5000 micromanipulator
Axon-Instruments Axoclamp 2B
Axon-Instruments Axopatch 200B
Axon-Instruments pClamp 9 data acquisition and analysis software for electrophysiology
Widefield fluorescence microscopy system with fixed stage and electrophysiology equipment:
upright stand ¿ Zeiss Axioskop 2 FS mot
Burleigh Gibraltar platform and XY- stage
HBO 100 incident light illuminator
DAPI, FITC and Rhodamine filter cubes for fluorescence microscopy
air objective (10x/0.30)
water dipping objectives (40x/0.80, 63x/0.90)
DIC optics
AxioCam MRm monochrome camera
AvioVision software for image acquisition and analysis
Warner Instruments recording chamber and dual automatic temperature controller
Burleigh PCS 5000 micromanipulator
Axon-Instruments Axoclamp 2B
Axon-Instruments Axopatch 200B
Axon-Instruments pClamp 9 data acquisition and analysis software for electrophysiology
E10099
WILLETT, MARK
Zeiss Confocal Microscope
A Zeiss confocal microscope system which is also capable of UV writing of samples. (HeNe - 633nm, GeNe - 543nm, UV - 351nm, Arlon - 458nm, and other lines)
A Zeiss confocal microscope system which is also capable of UV writing of samples. (HeNe - 633nm, GeNe - 543nm, UV - 351nm, Arlon - 458nm, and other lines)
A Zeiss confocal microscope system which is also capable of UV writing of samples. (HeNe - 633nm, GeNe - 543nm, UV - 351nm, Arlon - 458nm, and other lines)
E10004
LEBLANC, KATHLEEN
Fa 6" Probe Station Package R32/6 (S/N 2930)
A manual 8inch wafer prober with a Leica GZ4 stereomicroscope. Local ID: PH/01713
A manual 8inch wafer prober with a Leica GZ4 stereomicroscope. Local ID: PH/01713
A manual 8inch wafer prober with a Leica GZ4 stereomicroscope. Local ID: PH/01713
E10007
LEBLANC, KATHLEEN
Lightwave Polarization Analyser
E10404
IBSEN, MORTEN
XY Stage / 1m Stage / Frame / Rack
E10407
IBSEN, MORTEN
AQ317 Spectrum Analyser (purchased in 1999)
E10408
NILSSON, LARS
Kurt J Lesker Sputter System in the Nanomaterials Rapid Prototyping Facility
Lesker sputter deposition system capable depositing thin multi-layers of metallic and dielectric layers. Local ID: PH/01917
Lesker sputter deposition system capable depositing thin multi-layers of metallic and dielectric layers. Local ID: PH/01917
Lesker sputter deposition system capable depositing thin multi-layers of metallic and dielectric layers. Local ID: PH/01917
E10009
LEBLANC, KATHLEEN
E-Beam Lithography Conversion Kit
E-Beam Lithography Conversion Kit. Raith nanolithography system capable of writing sub 100nm dimensions with up to 16bit resolution. Local ID: PH/02287
E-Beam Lithography Conversion Kit. Raith nanolithography system capable of writing sub 100nm dimensions with up to 16bit resolution. Local ID: PH/02287
E-Beam Lithography Conversion Kit. Raith nanolithography system capable of writing sub 100nm dimensions with up to 16bit resolution. Local ID: PH/02287
E10010
LEBLANC, KATHLEEN
Vicom MX T-series Motion Capture System
The laboratory contains a high specification Vicon MX T-series motion capture system consisting of twelve cameras. Six cameras are 16 megapixel resolution and the remaining six are 4 megapixel resolution. This enables a capture volume of approximately 8m length x 3m width x 3m height whilst using markers from 14mm to as little as 3mm in diameter. Synchronised with the motion capture system are two Kistler piezoelectric force platforms, one of which is portable enabling it to be repositioned for a multitude of tasks including step-up and step-down movements. In addition there is also a 16 channel Aurion `Zerowire¿ wireless EMG system to enable the electrical activity of muscles as they contract to be recorded, which is also synchronised with the motion capture system. Other equipment available include; ultrasound imaging, in-shoe pressure distribution, and joint torque measurement systems.
The laboratory contains a high specification Vicon MX T-series motion capture system consisting of twelve cameras. Six cameras are 16 megapixel resolution and the remaining six are 4 megapixel resolution. This enables a capture volume of approximately 8m length x 3m width x 3m height whilst using markers from 14mm to as little as 3mm in diameter. Synchronised with the motion capture system are two Kistler piezoelectric force platforms, one of which is portable enabling it to be repositioned for a multitude of tasks including step-up and step-down movements. In addition there is also a 16 channel Aurion `Zerowire¿ wireless EMG system to enable the electrical activity of muscles as they contract to be recorded, which is also synchronised with the motion capture system. Other equipment available include; ultrasound imaging, in-shoe pressure distribution, and joint torque measurement systems.
The laboratory contains a high specification Vicon MX T-series motion capture system consisting of twelve cameras. Six cameras are 16 megapixel resolution and the remaining six are 4 megapixel resolution. This enables a capture volume of approximately 8m length x 3m width x 3m height whilst using markers from 14mm to as little as 3mm in diameter. Synchronised with the motion capture system are two Kistler piezoelectric force platforms, one of which is portable enabling it to be repositioned for a multitude of tasks including step-up and step-down movements. In addition there is also a 16 channel Aurion `Zerowire¿ wireless EMG system to enable the electrical activity of muscles as they contract to be recorded, which is also synchronised with the motion capture system. Other equipment available include; ultrasound imaging, in-shoe pressure distribution, and joint torque measurement systems.
E10012
WARNER, MARTIN
Vicon V460 System + 6 Cameras obsolete at YE1617
Our Vicon system is one the highest specification systems in the country for health research. This enables us to capture the three-dimensional movement of walking, to the small intricate movements of the hand and fingers. Synchronised with our force platforms and EMG systems the system enables us to generate a complete biomechanical analysis of a patient¿s movement strategies. We also have a second Vicon system which can be setup in other laboratories, or practical rooms, for capturing smaller movement tasks.
Our Vicon system is one the highest specification systems in the country for health research. This enables us to capture the three-dimensional movement of walking, to the small intricate movements of the hand and fingers. Synchronised with our force platforms and EMG systems the system enables us to generate a complete biomechanical analysis of a patient¿s movement strategies. We also have a second Vicon system which can be setup in other laboratories, or practical rooms, for capturing smaller movement tasks.
Our Vicon system is one the highest specification systems in the country for health research. This enables us to capture the three-dimensional movement of walking, to the small intricate movements of the hand and fingers. Synchronised with our force platforms and EMG systems the system enables us to generate a complete biomechanical analysis of a patient¿s movement strategies. We also have a second Vicon system which can be setup in other laboratories, or practical rooms, for capturing smaller movement tasks.
E10013
WARNER, MARTIN
Magstim 200 - single pulse, monophasic stimulator used for cortical and peripheral stimulation.
E10014
WARNER, MARTIN
Impedance Analyser
E10435
TSUCHIYA, YOSHISHIGE
Massarray Analyser 4 system
The MassARRAY Analyzer 4 system brings the power of mass spectrometry, robust molecular biology, and advanced data analysis software to meet the needs of high- and low-throughput laboratories. The system provides increased throughput, faster time-to-results, and the ability to cost effectively run from tens to thousands of samples.
The MassARRAY Analyzer 4 system brings the power of mass spectrometry, robust molecular biology, and advanced data analysis software to meet the needs of high- and low-throughput laboratories. The system provides increased throughput, faster time-to-results, and the ability to cost effectively run from tens to thousands of samples.
The MassARRAY Analyzer 4 system brings the power of mass spectrometry, robust molecular biology, and advanced data analysis software to meet the needs of high- and low-throughput laboratories. The system provides increased throughput, faster time-to-results, and the ability to cost effectively run from tens to thousands of samples.
E10019
WILKINS, ADRIAN
Pyromark Md System (220-240V)
PyroMark Q96 MD: Analysis of DNA methylation, detection of mutations and SNP`s with high sensitivity and built-in quality control.
PyroMark Q96 MD: Analysis of DNA methylation, detection of mutations and SNP`s with high sensitivity and built-in quality control.
PyroMark Q96 MD: Analysis of DNA methylation, detection of mutations and SNP`s with high sensitivity and built-in quality control.
E10022
WILKINS, ADRIAN
Leica TCS SP5 Confocal laser scanning microscope
The Leica TCS SP5 Confocal fully covers a broad range of requirements in confocal and multiphoton imaging. The system provides the full range of scan speeds at the highest resolution. With its proven, high-efficiency SP detection (five channels simultaneously) and optional AOBS (Acousto Optical Bream Splitter), the Leica TCS SP5 delivers bright, noise-free images with minimal photo damage at high speed.
The Leica TCS SP5 Confocal fully covers a broad range of requirements in confocal and multiphoton imaging. The system provides the full range of scan speeds at the highest resolution. With its proven, high-efficiency SP detection (five channels simultaneously) and optional AOBS (Acousto Optical Bream Splitter), the Leica TCS SP5 delivers bright, noise-free images with minimal photo damage at high speed.
The Leica TCS SP5 Confocal fully covers a broad range of requirements in confocal and multiphoton imaging. The system provides the full range of scan speeds at the highest resolution. With its proven, high-efficiency SP detection (five channels simultaneously) and optional AOBS (Acousto Optical Bream Splitter), the Leica TCS SP5 delivers bright, noise-free images with minimal photo damage at high speed.
E10027
PAGE, ANTHONY
Soft Glass Fiber Drawing Tower
E10335
HEWAK, DANIEL
SR Research Eyelink Tracker
The Eyelink 1000 system is a state-of-the-art desk-mounted eye tracker with very high spatial and temporal accuracy. It is currently in use for a wide range of visual cognitive experiments.
The Eyelink 1000 system is a state-of-the-art desk-mounted eye tracker with very high spatial and temporal accuracy. It is currently in use for a wide range of visual cognitive experiments.
The Eyelink 1000 system is a state-of-the-art desk-mounted eye tracker with very high spatial and temporal accuracy. It is currently in use for a wide range of visual cognitive experiments.
E10039
DARGIE, PETER
Binocular Dpi Eyetracker Gen2000 - Left & Right
The DPI lab is equipped with two Dual Purkinje Image eye trackers, set up to allow simultaneous recording of both eyes. The trackers sample every millisecond, with 1 minarc spatial accuracy. These are interfaced with Cambridge Research Systems shutter goggles, which can be used to present different images to each of the two eyes.
The DPI lab is equipped with two Dual Purkinje Image eye trackers, set up to allow simultaneous recording of both eyes. The trackers sample every millisecond, with 1 minarc spatial accuracy. These are interfaced with Cambridge Research Systems shutter goggles, which can be used to present different images to each of the two eyes.
The DPI lab is equipped with two Dual Purkinje Image eye trackers, set up to allow simultaneous recording of both eyes. The trackers sample every millisecond, with 1 minarc spatial accuracy. These are interfaced with Cambridge Research Systems shutter goggles, which can be used to present different images to each of the two eyes.
E10040
DARGIE, PETER
Pressurization system
E10359
PETROVICH, MARCO
Mobile Research Unit (converted Citroën Relay van)
Fitted with a range of professional equipment, this custom-fitted Citroën Relay vehicle gives valuable support to our research work. The interior sports a lab environment with battery derived 240V ac power supply enabling a wide range of laboratory equipment to be used away from the University. Additionally, with flexibility designed in from the start, the unit can be tailored for each assignment. This could range from face to face interviews being recorded on video to studies involving eye tracking equipment to investigate how participants respond to visual images or text.
Fitted with a range of professional equipment, this custom-fitted Citroën Relay vehicle gives valuable support to our research work. The interior sports a lab environment with battery derived 240V ac power supply enabling a wide range of laboratory equipment to be used away from the University. Additionally, with flexibility designed in from the start, the unit can be tailored for each assignment. This could range from face to face interviews being recorded on video to studies involving eye tracking equipment to investigate how participants respond to visual images or text.
Fitted with a range of professional equipment, this custom-fitted Citroën Relay vehicle gives valuable support to our research work. The interior sports a lab environment with battery derived 240V ac power supply enabling a wide range of laboratory equipment to be used away from the University. Additionally, with flexibility designed in from the start, the unit can be tailored for each assignment. This could range from face to face interviews being recorded on video to studies involving eye tracking equipment to investigate how participants respond to visual images or text.
E10038
DARGIE, PETER
Eyelink 1000 Base System for Human Use
Housed in a set of spectacles and worn on a backpack. Lower spatial and temporal accuracy than the Eyelink, but has the benefit of being able to move with the wearer¿s head. Best used in dynamic, real-world tasks
Housed in a set of spectacles and worn on a backpack. Lower spatial and temporal accuracy than the Eyelink, but has the benefit of being able to move with the wearer¿s head. Best used in dynamic, real-world tasks
Housed in a set of spectacles and worn on a backpack. Lower spatial and temporal accuracy than the Eyelink, but has the benefit of being able to move with the wearer¿s head. Best used in dynamic, real-world tasks
E10041
DARGIE, PETER
Leica Scan Station Terrestrial Laser Scanner
Survey instrument to create 3D point clouds up to a range of 200 metres with a precision of 2mm
Survey instrument to create 3D point clouds up to a range of 200 metres with a precision of 2mm
Survey instrument to create 3D point clouds up to a range of 200 metres with a precision of 2mm
E10043
RIDDY, LIAM
Prominance Hplc Upgrade
The modular Prominence HPLC Series generates highly reproducible chromatography while maintaining the flexibility for which Shimadzu HPLC instrumentation is known. The Prominence HPLC can perform many analytical tasks with one piece of high-performance equipment - QA/QC work, Mass Spec front end, multi-dimensional chromatography.
The modular Prominence HPLC Series generates highly reproducible chromatography while maintaining the flexibility for which Shimadzu HPLC instrumentation is known. The Prominence HPLC can perform many analytical tasks with one piece of high-performance equipment - QA/QC work, Mass Spec front end, multi-dimensional chromatography.
The modular Prominence HPLC Series generates highly reproducible chromatography while maintaining the flexibility for which Shimadzu HPLC instrumentation is known. The Prominence HPLC can perform many analytical tasks with one piece of high-performance equipment - QA/QC work, Mass Spec front end, multi-dimensional chromatography.
E10047
REEVE, PAUL
Facscanto Laser 488nm and 633nm benchtop 6 colour analysis machine
Used in protein purification. The FACSCanto in the Somers building is a powerful benchtop machine with 488nm and 633 nm lasers allowing six-colour analysis. These 4 analytical instruments play an essential role in research projects over the whole Division and throughout the Faculty of Medicine.
Used in protein purification. The FACSCanto in the Somers building is a powerful benchtop machine with 488nm and 633 nm lasers allowing six-colour analysis. These 4 analytical instruments play an essential role in research projects over the whole Division and throughout the Faculty of Medicine.
Used in protein purification. The FACSCanto in the Somers building is a powerful benchtop machine with 488nm and 633 nm lasers allowing six-colour analysis. These 4 analytical instruments play an essential role in research projects over the whole Division and throughout the Faculty of Medicine.
E10048
REEVE, PAUL
Three Zone, Bench Top 1700C Tube Furnace
E10373
SESSIONS, NEIL
Olympus CKX41 inverted microscope
For High Resolution cell imaging. In fluorescence microscopy, wide variations between localized fluorophore concentrations within the specimen, coupled to differences in extinction coefficient and quantum yield from one fluorochrome to another, significantly influence the emission signal produced for a given quantity of excitation intensity. Considering that many specimens contain only minute quantities of fluorescent material in any particular viewfield, these combined factors produce an average level of fluorescence emission that is four to six orders of magnitude less than the excitation intensity.
For High Resolution cell imaging. In fluorescence microscopy, wide variations between localized fluorophore concentrations within the specimen, coupled to differences in extinction coefficient and quantum yield from one fluorochrome to another, significantly influence the emission signal produced for a given quantity of excitation intensity. Considering that many specimens contain only minute quantities of fluorescent material in any particular viewfield, these combined factors produce an average level of fluorescence emission that is four to six orders of magnitude less than the excitation intensity.
For High Resolution cell imaging. In fluorescence microscopy, wide variations between localized fluorophore concentrations within the specimen, coupled to differences in extinction coefficient and quantum yield from one fluorochrome to another, significantly influence the emission signal produced for a given quantity of excitation intensity. Considering that many specimens contain only minute quantities of fluorescent material in any particular viewfield, these combined factors produce an average level of fluorescence emission that is four to six orders of magnitude less than the excitation intensity.
E10045
REEVE, PAUL
Sedna Scientific TTC Cell Counter
Multiple parameter cell counter.
Multiple parameter cell counter.
Multiple parameter cell counter.
E10049
REEVE, PAUL
Varioskan Flash Inc Bottom Read
Multiple wave length plate reader. Varioskan Flash spectral scanning multimode reader includes fluorescence intensity, time-resolved fluorescence (TRF), photometric, and optional luminometric detection technologies. It is designed for optimization and analysis of various assays, such as binding assays, ADMETox, molecular biology assays, enzyme kinetic studies, ion-channel and cell signalling assays.
Multiple wave length plate reader. Varioskan Flash spectral scanning multimode reader includes fluorescence intensity, time-resolved fluorescence (TRF), photometric, and optional luminometric detection technologies. It is designed for optimization and analysis of various assays, such as binding assays, ADMETox, molecular biology assays, enzyme kinetic studies, ion-channel and cell signalling assays.
Multiple wave length plate reader. Varioskan Flash spectral scanning multimode reader includes fluorescence intensity, time-resolved fluorescence (TRF), photometric, and optional luminometric detection technologies. It is designed for optimization and analysis of various assays, such as binding assays, ADMETox, molecular biology assays, enzyme kinetic studies, ion-channel and cell signalling assays.
E10051
REEVE, PAUL
He Ion Microscope: Orion-Bu
The Zeiss Orion helium ion microscope has similar functionality to an electron microscope, but uses a focussed beam of helium ions in place of the electrons. The larger mass and therefore smaller de Broglie wavelength of helium ions compared to electrons means that the scanning helium ions microscope suffers less from diffraction effects than a scanning electron microscope (SEM). Since helium ions can be focused into a smaller probe size and provide a much smaller sample interaction compared to electrons, the Orion generates higher resolution images with better material contrast and 5 times improved depth of focus. The high resolution arises from the use of a finely sharpened needle and a process that strips individual atoms away from the source until an atomic pyramid is created with just three atoms at the very end of the source tip. The Orion achieves a resolution of less than 0.9nm at an energy of 25-30kV and can deliver beam currents between 1fA and 25pA.
The Zeiss Orion helium ion microscope has similar functionality to an electron microscope, but uses a focussed beam of helium ions in place of the electrons. The larger mass and therefore smaller de Broglie wavelength of helium ions compared to electrons means that the scanning helium ions microscope suffers less from diffraction effects than a scanning electron microscope (SEM). Since helium ions can be focused into a smaller probe size and provide a much smaller sample interaction compared to electrons, the Orion generates higher resolution images with better material contrast and 5 times improved depth of focus. The high resolution arises from the use of a finely sharpened needle and a process that strips individual atoms away from the source until an atomic pyramid is created with just three atoms at the very end of the source tip. The Orion achieves a resolution of less than 0.9nm at an energy of 25-30kV and can deliver beam currents between 1fA and 25pA.
The Zeiss Orion helium ion microscope has similar functionality to an electron microscope, but uses a focussed beam of helium ions in place of the electrons. The larger mass and therefore smaller de Broglie wavelength of helium ions compared to electrons means that the scanning helium ions microscope suffers less from diffraction effects than a scanning electron microscope (SEM). Since helium ions can be focused into a smaller probe size and provide a much smaller sample interaction compared to electrons, the Orion generates higher resolution images with better material contrast and 5 times improved depth of focus. The high resolution arises from the use of a finely sharpened needle and a process that strips individual atoms away from the source until an atomic pyramid is created with just three atoms at the very end of the source tip. The Orion achieves a resolution of less than 0.9nm at an energy of 25-30kV and can deliver beam currents between 1fA and 25pA.
E10258
LESSEY, MARK
Helios Sputtering System Type Xl 6"
The HELIOS sputtering tool is a flexible platform for fast, precise and fully automated thin film coatings. It specializes in high quality optical coatings featuring very low absorption and scattering. Optical performance is ensured by the extremely dense, smooth, stoichiometric, and amorphous layers. Precision in layer growth control is facilitated by an optical monitoring system for in-situ on-substrate measurements.
The HELIOS sputtering tool is a flexible platform for fast, precise and fully automated thin film coatings. It specializes in high quality optical coatings featuring very low absorption and scattering. Optical performance is ensured by the extremely dense, smooth, stoichiometric, and amorphous layers. Precision in layer growth control is facilitated by an optical monitoring system for in-situ on-substrate measurements.
The HELIOS sputtering tool is a flexible platform for fast, precise and fully automated thin film coatings. It specializes in high quality optical coatings featuring very low absorption and scattering. Optical performance is ensured by the extremely dense, smooth, stoichiometric, and amorphous layers. Precision in layer growth control is facilitated by an optical monitoring system for in-situ on-substrate measurements.
E10260
LESSEY, MARK
Field Emmission Scanning Electron Microscope (FEG-SEM)
High resolution FEG-SEM for sub 100nm imaging. Magnification x100 to x1000000
High resolution FEG-SEM for sub 100nm imaging. Magnification x100 to x1000000
High resolution FEG-SEM for sub 100nm imaging. Magnification x100 to x1000000
E10261
LESSEY, MARK
Evaporator Gun
LAB700 e-gun evaporator incorporates 2e-guns each with a 5xcrucible plate. is configured for reactive ion assisted deposition of dielectrics, high precision lift off, variable angle deposition, cryogenic deposition
LAB700 e-gun evaporator incorporates 2e-guns each with a 5xcrucible plate. is configured for reactive ion assisted deposition of dielectrics, high precision lift off, variable angle deposition, cryogenic deposition
LAB700 e-gun evaporator incorporates 2e-guns each with a 5xcrucible plate. is configured for reactive ion assisted deposition of dielectrics, high precision lift off, variable angle deposition, cryogenic deposition
E10263
LESSEY, MARK
Imoxs Sem
X-ray fluorescence (XRF) analysis of glasses & high sensitivity trace analysis, spatial resolution 50um, sensitivity element dependant, down to 50ppm
X-ray fluorescence (XRF) analysis of glasses & high sensitivity trace analysis, spatial resolution 50um, sensitivity element dependant, down to 50ppm
X-ray fluorescence (XRF) analysis of glasses & high sensitivity trace analysis, spatial resolution 50um, sensitivity element dependant, down to 50ppm
E10264
LESSEY, MARK
Small UAV engine test dynamometer for engines up to 250cc
Shared research and teaching facility. Incorporating UAV engine testing research facility.
Shared research and teaching facility. Incorporating UAV engine testing research facility.
Shared research and teaching facility. Incorporating UAV engine testing research facility.
E10992
KEANE, ANDREW
Fluoresence System
Sub 100nm spatial resolution imagaing of distribution elements in a sample. Spatial location of lements in an alloy, imaging of contacts under metal, semiconductor metal failure analysis, analysis of layered structures.
Sub 100nm spatial resolution imagaing of distribution elements in a sample. Spatial location of lements in an alloy, imaging of contacts under metal, semiconductor metal failure analysis, analysis of layered structures.
Sub 100nm spatial resolution imagaing of distribution elements in a sample. Spatial location of lements in an alloy, imaging of contacts under metal, semiconductor metal failure analysis, analysis of layered structures.
E10265
LESSEY, MARK
Theta Probe Angle-Resolved X-ray Photoelectron Spectrometer (ARXPS) System
The Theta Probe X-ray Photoelectron Spectromer (XPS) allows the collection of angle-resolved spectra without the need to tilt the sample to nondestructively characterize ultra-thin layers.
The Theta Probe X-ray Photoelectron Spectromer (XPS) allows the collection of angle-resolved spectra without the need to tilt the sample to nondestructively characterize ultra-thin layers.
The Theta Probe X-ray Photoelectron Spectromer (XPS) allows the collection of angle-resolved spectra without the need to tilt the sample to nondestructively characterize ultra-thin layers.
E10712
BODEN, STUART
Auto 306 Resistance Evaporation System
Resistance evaporation source for filament or boat evaporation. A built-in shield prevents unwanted coating of the vacuum chamber and adjacent deposition accessories. Four position turret evaporation source capable of sequentially depositing up to 4 different materials without breaking vacuum. Sources are selected and rotated into the evaporation position using a simple handwheel control. The sources can be configured to evaporate from the center or the side of the vacuum chamber for optimum film thickness uniformity onto a choice of static or rotating substrate fixtures.
Resistance evaporation source for filament or boat evaporation. A built-in shield prevents unwanted coating of the vacuum chamber and adjacent deposition accessories. Four position turret evaporation source capable of sequentially depositing up to 4 different materials without breaking vacuum. Sources are selected and rotated into the evaporation position using a simple handwheel control. The sources can be configured to evaporate from the center or the side of the vacuum chamber for optimum film thickness uniformity onto a choice of static or rotating substrate fixtures.
Resistance evaporation source for filament or boat evaporation. A built-in shield prevents unwanted coating of the vacuum chamber and adjacent deposition accessories. Four position turret evaporation source capable of sequentially depositing up to 4 different materials without breaking vacuum. Sources are selected and rotated into the evaporation position using a simple handwheel control. The sources can be configured to evaporate from the center or the side of the vacuum chamber for optimum film thickness uniformity onto a choice of static or rotating substrate fixtures.
E10267
LESSEY, MARK
Optiwet St30
Cleaner/lift-off/stripper module/developer module. 4,6,8 inch wafers, 5.6.7 inch plates.
Cleaner/lift-off/stripper module/developer module. 4,6,8 inch wafers, 5.6.7 inch plates.
Cleaner/lift-off/stripper module/developer module. 4,6,8 inch wafers, 5.6.7 inch plates.
E10268
LESSEY, MARK
Rapid Prototyping System
Rapid prototyping machine, build resolution x-axis 600dpi/42um, y-axis 600dpi/42um, z-axis 1600dpi/16um, build size XxYxZ) 342 x 342 x 200mm, input formats STL, IPT, IAM, SLC and objDF files. Two resin setup VeroWhite (hard) and VeroBlack (soft), capable of producing parts of any hardness level by mixing both resins.
Rapid prototyping machine, build resolution x-axis 600dpi/42um, y-axis 600dpi/42um, z-axis 1600dpi/16um, build size XxYxZ) 342 x 342 x 200mm, input formats STL, IPT, IAM, SLC and objDF files. Two resin setup VeroWhite (hard) and VeroBlack (soft), capable of producing parts of any hardness level by mixing both resins.
Rapid prototyping machine, build resolution x-axis 600dpi/42um, y-axis 600dpi/42um, z-axis 1600dpi/16um, build size XxYxZ) 342 x 342 x 200mm, input formats STL, IPT, IAM, SLC and objDF files. Two resin setup VeroWhite (hard) and VeroBlack (soft), capable of producing parts of any hardness level by mixing both resins.
E10270
LONG, MARK
Tunable Laser
E10422
GANAPATHY, SENTHIL
Plasma System
E10436
LESSEY, MARK
MJB4 Mask Aligner
E10362
SESSIONS, NEIL
Plasmalab 80 Plus Rie Etcher
E10691
LESSEY, MARK
550 Degree Table
E10451
LESSEY, MARK
Spectrograph
E10467
SAITO, SHINICHI
Ez Path 2 'S' Dx 1.5M CNC Bedlathe for turned parts
E10481
LONG, MARK
Nano 38 Sputting Machine Lesker Sputter System
E10494
SESSIONS, NEIL
Mass Spectrometer
E10508
ULBRICHT, HENDRIK
Shimatronic Design System
E10516
KEIM, ODINA
Coherent Laser System (purchased in August 2005)
E10608
LAGOUDAKIS, PAVLOS
EVG501 Semi-Automated Lamination Machine
E10613
LESSEY, MARK
Photometrics Coolsnap CCD Camera (Roper Scientific) (obsolete 1718)
High-resolution interline CCD camera for Image acquisition and analysis. The CoolSNAP cf camera has been designed for life science imaging applications that demand superior spatial resolution and fast throughput. Each pixel in this moderately cooled, 12-bit platform`s 1392 x 1040-element interline CCD measures 4.65 x 4.65 µm ¿ perfect for low-magnification, high-resolution microscopy. Color and Monochrome models are available.
High-resolution interline CCD camera for Image acquisition and analysis. The CoolSNAP cf camera has been designed for life science imaging applications that demand superior spatial resolution and fast throughput. Each pixel in this moderately cooled, 12-bit platform`s 1392 x 1040-element interline CCD measures 4.65 x 4.65 µm ¿ perfect for low-magnification, high-resolution microscopy. Color and Monochrome models are available.
High-resolution interline CCD camera for Image acquisition and analysis. The CoolSNAP cf camera has been designed for life science imaging applications that demand superior spatial resolution and fast throughput. Each pixel in this moderately cooled, 12-bit platform`s 1392 x 1040-element interline CCD measures 4.65 x 4.65 µm ¿ perfect for low-magnification, high-resolution microscopy. Color and Monochrome models are available.
E10108
WILLETT, MARK
Varian HPLC/ Cary Eclipse Fluorescence Spectrometer/ Cary 300 Bio UV-Vis spectrometer
E10140
STULZ, EUGEN
Cobra Sysem With Nitrogen Generator
E10148
LIGHT, MARK
Philips Xl30 ESEM Scanning Electron Microscope
Philips Environmental - Scanning Electron Microscope (SEM) coupled with FEI Micro-analysis system. The Philips XL-30 ESEM is a flexible scanning electron microscope with a large chamber. It can be used for conventional high vacuum imaging, or in the environmental mode, can be used to examine wet, oily, gassy or non-conducting samples. Samples can be examined in an atmosphere of up to 10 torr of water vapour, oxygen, nitrogen carbon dioxide or any other non-corrosice gas.
Philips Environmental - Scanning Electron Microscope (SEM) coupled with FEI Micro-analysis system. The Philips XL-30 ESEM is a flexible scanning electron microscope with a large chamber. It can be used for conventional high vacuum imaging, or in the environmental mode, can be used to examine wet, oily, gassy or non-conducting samples. Samples can be examined in an atmosphere of up to 10 torr of water vapour, oxygen, nitrogen carbon dioxide or any other non-corrosice gas.
Philips Environmental - Scanning Electron Microscope (SEM) coupled with FEI Micro-analysis system. The Philips XL-30 ESEM is a flexible scanning electron microscope with a large chamber. It can be used for conventional high vacuum imaging, or in the environmental mode, can be used to examine wet, oily, gassy or non-conducting samples. Samples can be examined in an atmosphere of up to 10 torr of water vapour, oxygen, nitrogen carbon dioxide or any other non-corrosice gas.
E10174
CLARK, ALISTAIR
Fourier Transform Mass Spectrometer
Fourier 300 is a high-resolution NMR. Main Features:
- Compact high-resolution NMR spectrometer
- Ideal for chemistry education and chemical analysis
- Industry standard NMR software TopSpin
- Cost efficient
- Easy handling and siting
- Provides routine and advanced modern NMR techniques including COSY, NOESY, HSQC, HMBC
Fourier 300 is a high-resolution NMR. Main Features:
- Compact high-resolution NMR spectrometer
- Ideal for chemistry education and chemical analysis
- Industry standard NMR software TopSpin
- Cost efficient
- Easy handling and siting
- Provides routine and advanced modern NMR techniques including COSY, NOESY, HSQC, HMBC
Fourier 300 is a high-resolution NMR. Main Features:
- Compact high-resolution NMR spectrometer
- Ideal for chemistry education and chemical analysis
- Industry standard NMR software TopSpin
- Cost efficient
- Easy handling and siting
- Provides routine and advanced modern NMR techniques including COSY, NOESY, HSQC, HMBC
E10176
LANGLEY, GRAHAM
FEI Quanta 250 FEG Scanning electron microscope
E10976
PAGE, ANTHONY
Thermo ELEMENT XR HR-ICP-MS
Inductively Coupled Plasma Mass Spectrometer (ICP-MS)
Inductively Coupled Plasma Mass Spectrometer (ICP-MS)
Inductively Coupled Plasma Mass Spectrometer (ICP-MS)
E10189
MILTON, JAMES
Thermo TRITON Plus TI-MS
The TRITON Plus is a multicollector thermal ionization mass spectrometer for high precision isotope ratio measurements. It uses a proven thermal ionization source and has a unique variable multicollector platform which can be configured with Faraday detectors and/or miniaturized ion counting detectors for smallest sample sizes. Typical applications are dating of geological samples as well as control of isotopic compositions of nuclear materials.
The TRITON Plus is a multicollector thermal ionization mass spectrometer for high precision isotope ratio measurements. It uses a proven thermal ionization source and has a unique variable multicollector platform which can be configured with Faraday detectors and/or miniaturized ion counting detectors for smallest sample sizes. Typical applications are dating of geological samples as well as control of isotopic compositions of nuclear materials.
The TRITON Plus is a multicollector thermal ionization mass spectrometer for high precision isotope ratio measurements. It uses a proven thermal ionization source and has a unique variable multicollector platform which can be configured with Faraday detectors and/or miniaturized ion counting detectors for smallest sample sizes. Typical applications are dating of geological samples as well as control of isotopic compositions of nuclear materials.
E10190
MILTON, JAMES
Additional Parts For Evg620Tb
E10703
LESSEY, MARK
High Performance Liquid Chromatography Mass Spectrometer (HPLC-MS)
High Performance Liquid Chromatography Mass Spectrometer (HPLC-MS). LC-MSn offers Trap-HCD (Higher-Energy Collisional Dissociation) combined with CID (Collision-Induced Dissociation), PQD* (Pulsed-Q Dissociation) and ETD (Electron Transfer Dissociation) to solve the most difficult analytical problems. Key Features:
- Novel wide dynamic range discrete dynode detection system provides up to six orders of linear quantitation
- Unique dual-pressure linear ion trap simultaneously increases scan speed and mass resolution
- Proprietary S-lens ion optics increase ion transmission and shorten trap fill time, improving instrument sensitivity and data acquisition rate
- Generation II ion optics improve robustness and reduces downtime
- Trap-HCD functionality combined with CID, PQD and ETD provides the ultimate in structural information
- Predictive Automatic Gain Control reduces cycle times, yielding improved data acquisition rates.
High Performance Liquid Chromatography Mass Spectrometer (HPLC-MS). LC-MSn offers Trap-HCD (Higher-Energy Collisional Dissociation) combined with CID (Collision-Induced Dissociation), PQD* (Pulsed-Q Dissociation) and ETD (Electron Transfer Dissociation) to solve the most difficult analytical problems. Key Features:
- Novel wide dynamic range discrete dynode detection system provides up to six orders of linear quantitation
- Unique dual-pressure linear ion trap simultaneously increases scan speed and mass resolution
- Proprietary S-lens ion optics increase ion transmission and shorten trap fill time, improving instrument sensitivity and data acquisition rate
- Generation II ion optics improve robustness and reduces downtime
- Trap-HCD functionality combined with CID, PQD and ETD provides the ultimate in structural information
- Predictive Automatic Gain Control reduces cycle times, yielding improved data acquisition rates.
High Performance Liquid Chromatography Mass Spectrometer (HPLC-MS). LC-MSn offers Trap-HCD (Higher-Energy Collisional Dissociation) combined with CID (Collision-Induced Dissociation), PQD* (Pulsed-Q Dissociation) and ETD (Electron Transfer Dissociation) to solve the most difficult analytical problems. Key Features:
- Novel wide dynamic range discrete dynode detection system provides up to six orders of linear quantitation
- Unique dual-pressure linear ion trap simultaneously increases scan speed and mass resolution
- Proprietary S-lens ion optics increase ion transmission and shorten trap fill time, improving instrument sensitivity and data acquisition rate
- Generation II ion optics improve robustness and reduces downtime
- Trap-HCD functionality combined with CID, PQD and ETD provides the ultimate in structural information
- Predictive Automatic Gain Control reduces cycle times, yielding improved data acquisition rates.
E10192
WHITESIDE, JESSICA
Canberra UK Ltd ULB HPGs Well Detector
Ultra Low Background (ULB) High Purity Germanium (HPG) Well Detection system.
Ultra Low Background (ULB) High Purity Germanium (HPG) Well Detection system.
Ultra Low Background (ULB) High Purity Germanium (HPG) Well Detection system.
E10195
CROUDACE, IAN
Callista
Callista is a 19.75m Catamaran, purpose built for teaching and research, with a large rear deck and A-frame for equipment deployment. Callista offers a unique capability for operations along the south coast for teaching and research as well as a platform for marine enterprise and industry. She is also used in the Discover Oceanography programme which offers the opportunity to experience a hands-on introdction to marine science for groups of all ages.
Callista is a 19.75m Catamaran, purpose built for teaching and research, with a large rear deck and A-frame for equipment deployment. Callista offers a unique capability for operations along the south coast for teaching and research as well as a platform for marine enterprise and industry. She is also used in the Discover Oceanography programme which offers the opportunity to experience a hands-on introdction to marine science for groups of all ages.
Callista is a 19.75m Catamaran, purpose built for teaching and research, with a large rear deck and A-frame for equipment deployment. Callista offers a unique capability for operations along the south coast for teaching and research as well as a platform for marine enterprise and industry. She is also used in the Discover Oceanography programme which offers the opportunity to experience a hands-on introdction to marine science for groups of all ages.
E10204
FISHER, GARY
Furnaces - Final 10%
E10710
LESSEY, MARK
Princeton Measurements Corporation (now Lake Shore Cryotronics) Model 3900 Micromag Vibrating Sample
High sensitivity vibrating magnometer (0.5 microemu standard deviation @ 1 second per measured point). Features; Hardware and software compatible with P.M.C., Alternating Gradient Magnetometer Systems, Versatile, quick change sample holders, Continuous sample rotation about Z-axis under computer control, High and low temperature accessories, High speed four quadrant magnet power supply, and comprehensive, easy to use Windows based application software.
High sensitivity vibrating magnometer (0.5 microemu standard deviation @ 1 second per measured point). Features; Hardware and software compatible with P.M.C., Alternating Gradient Magnetometer Systems, Versatile, quick change sample holders, Continuous sample rotation about Z-axis under computer control, High and low temperature accessories, High speed four quadrant magnet power supply, and comprehensive, easy to use Windows based application software.
High sensitivity vibrating magnometer (0.5 microemu standard deviation @ 1 second per measured point). Features; Hardware and software compatible with P.M.C., Alternating Gradient Magnetometer Systems, Versatile, quick change sample holders, Continuous sample rotation about Z-axis under computer control, High and low temperature accessories, High speed four quadrant magnet power supply, and comprehensive, easy to use Windows based application software.
E10219
XUAN, CHUANG
Isoprime Dual Inlet Isotope Ratio Mass Spectrometer with Multiprep (DI-IRMS)
Isoprime Dual Inlet Isotope Ratio Mass Spectrometer with Multiprep (DI-IRMS) for the stable isotope analysis of d13C and d18O in carbonates (small or bulk samples).
Isoprime Dual Inlet Isotope Ratio Mass Spectrometer with Multiprep (DI-IRMS) for the stable isotope analysis of d13C and d18O in carbonates (small or bulk samples).
Isoprime Dual Inlet Isotope Ratio Mass Spectrometer with Multiprep (DI-IRMS) for the stable isotope analysis of d13C and d18O in carbonates (small or bulk samples).
E10221
HAMBACH, BASTIAN
FEI tecnai 12 Transmission Electron Microscope
E10634
PAGE, ANTHONY
Gryphon Nanodrop Liquid Handler
E10713
TEWS, IVO
2G Enterpirses Model 760 Liquid Helium cooled Superconducting Rock Magnetometer with DC Squids
2G Enterprises Model 760 Superconducting Rock Magnetometer (SRM) incorporating high sensitivity DC SQUIDS.
2G Enterprises Model 760 Superconducting Rock Magnetometer (SRM) incorporating high sensitivity DC SQUIDS.
2G Enterprises Model 760 Superconducting Rock Magnetometer (SRM) incorporating high sensitivity DC SQUIDS.
E10226
XUAN, CHUANG
Konica Minolta Sensing Non0Contact Digitizer VI-910 (obsolete 1718)
Uses laser to triangulate and scan 3 dimensional objects and produces a digital "cloud" of points which are then used to produce a digital model of the object via a computer software package. Used to accurately model, image and render archeological objects.
Uses laser to triangulate and scan 3 dimensional objects and produces a digital "cloud" of points which are then used to produce a digital model of the object via a computer software package. Used to accurately model, image and render archeological objects.
Uses laser to triangulate and scan 3 dimensional objects and produces a digital "cloud" of points which are then used to produce a digital model of the object via a computer software package. Used to accurately model, image and render archeological objects.
E10234
BARKER, DOMINIC
Caliber Spm System
The Caliber is a versatile and high performance SPM system designed for multifunctional and routine microscopy of surface topology, polymer, biomaterials and semiconductor materials. The compact design and user friendly interface make it a suitable educational tool as well as for research activity.
The Caliber is a versatile and high performance SPM system designed for multifunctional and routine microscopy of surface topology, polymer, biomaterials and semiconductor materials. The compact design and user friendly interface make it a suitable educational tool as well as for research activity.
The Caliber is a versatile and high performance SPM system designed for multifunctional and routine microscopy of surface topology, polymer, biomaterials and semiconductor materials. The compact design and user friendly interface make it a suitable educational tool as well as for research activity.
E10235
DE GROOT, CORNELIS
MAX-XP Benchtop Ultra Centrifuge
E10397
MELVIN, TRACY
Nikon Microscope system
E10398
ROGERS, EDWARD
Nanonics Hydra SPM/SNOM System (Multiprobe System)
The MultiView 4000 is a multi scanning probe system with an open platform for integration with a Raman spectrometer. The system is configured for dual probes set-up that allows multiple probe SNOM measurement and other SPM imaging. The system is also configured for optical waveguide device characterisation.
The MultiView 4000 is a multi scanning probe system with an open platform for integration with a Raman spectrometer. The system is configured for dual probes set-up that allows multiple probe SNOM measurement and other SPM imaging. The system is also configured for optical waveguide device characterisation.
The MultiView 4000 is a multi scanning probe system with an open platform for integration with a Raman spectrometer. The system is configured for dual probes set-up that allows multiple probe SNOM measurement and other SPM imaging. The system is also configured for optical waveguide device characterisation.
E10237
PIANA, GIACOMO
Cryoview 2000-Low Temperature
The Nanonics CryoView 2000 is the state-of-the-art low temperature scanning probe microscopy and device characterisation system. To expand its characterisation and analytical capability, the CryoView is integrated to the inVia Raman spectrometer.
The Nanonics CryoView 2000 is the state-of-the-art low temperature scanning probe microscopy and device characterisation system. To expand its characterisation and analytical capability, the CryoView is integrated to the inVia Raman spectrometer.
The Nanonics CryoView 2000 is the state-of-the-art low temperature scanning probe microscopy and device characterisation system. To expand its characterisation and analytical capability, the CryoView is integrated to the inVia Raman spectrometer.
E10238
CHONG, HAROLD
Opt System 100 Oxide Etcher
The etch mechanism of RIE is achieved by using the reactive gas plasma generated by strong RF source (13.56 MHz) to chemically ion etch the material of the samples. Depending on the process recipe, the materials etched profile can achieve high anisotropy. The DP01 RIE80+ system is configured for etching of polysilicon, amorphous silicon, silica, silicon nitride and polymer. 13.56 MHz driven parallel plate reactor Substrate electrode: 170 or 240 mm Shower head gas inlet optimised for RIE High conductance vacuum layout Gases: CHF3, Ar, O2, SF6, CF4, N2
The etch mechanism of RIE is achieved by using the reactive gas plasma generated by strong RF source (13.56 MHz) to chemically ion etch the material of the samples. Depending on the process recipe, the materials etched profile can achieve high anisotropy. The DP01 RIE80+ system is configured for etching of polysilicon, amorphous silicon, silica, silicon nitride and polymer. 13.56 MHz driven parallel plate reactor Substrate electrode: 170 or 240 mm Shower head gas inlet optimised for RIE High conductance vacuum layout Gases: CHF3, Ar, O2, SF6, CF4, N2
The etch mechanism of RIE is achieved by using the reactive gas plasma generated by strong RF source (13.56 MHz) to chemically ion etch the material of the samples. Depending on the process recipe, the materials etched profile can achieve high anisotropy. The DP01 RIE80+ system is configured for etching of polysilicon, amorphous silicon, silica, silicon nitride and polymer. 13.56 MHz driven parallel plate reactor Substrate electrode: 170 or 240 mm Shower head gas inlet optimised for RIE High conductance vacuum layout Gases: CHF3, Ar, O2, SF6, CF4, N2
E10239
LESSEY, MARK
Opt System 100 Metal Etcher
The etch mechanism of RIE is achieved by using the reactive gas plasma generated by strong RF source (13.56 MHz) to chemically ion etch the material of the samples. Depending on the process recipe, the materials etched profile can achieve high anisotropy. The DP06 RIE80+ system is configured for multimaterial etching like silica, silicon nitride, polymer, III-V based, semiconductor-metal, polysilicon and amorphous silicon.
The etch mechanism of RIE is achieved by using the reactive gas plasma generated by strong RF source (13.56 MHz) to chemically ion etch the material of the samples. Depending on the process recipe, the materials etched profile can achieve high anisotropy. The DP06 RIE80+ system is configured for multimaterial etching like silica, silicon nitride, polymer, III-V based, semiconductor-metal, polysilicon and amorphous silicon.
The etch mechanism of RIE is achieved by using the reactive gas plasma generated by strong RF source (13.56 MHz) to chemically ion etch the material of the samples. Depending on the process recipe, the materials etched profile can achieve high anisotropy. The DP06 RIE80+ system is configured for multimaterial etching like silica, silicon nitride, polymer, III-V based, semiconductor-metal, polysilicon and amorphous silicon.
E10240
LESSEY, MARK
Plasmalab 80 Plus Rie Etcher
The etching plasma is created by an RIE RF source and RF induction magnetic coil to produce high plasma densities. The results are high etch rate, high aspect ratio, and anisotropic etching of material of the samples. The system can also operate in ICP or RIE mode separately. This system is configured for fluorine-based chemistry etching. Ideal for deep oxide etching, silicon nitride, polymer, poly-silicon, amorphous silicon and crystalline silicon.
The etching plasma is created by an RIE RF source and RF induction magnetic coil to produce high plasma densities. The results are high etch rate, high aspect ratio, and anisotropic etching of material of the samples. The system can also operate in ICP or RIE mode separately. This system is configured for fluorine-based chemistry etching. Ideal for deep oxide etching, silicon nitride, polymer, poly-silicon, amorphous silicon and crystalline silicon.
The etching plasma is created by an RIE RF source and RF induction magnetic coil to produce high plasma densities. The results are high etch rate, high aspect ratio, and anisotropic etching of material of the samples. The system can also operate in ICP or RIE mode separately. This system is configured for fluorine-based chemistry etching. Ideal for deep oxide etching, silicon nitride, polymer, poly-silicon, amorphous silicon and crystalline silicon.
E10241
LESSEY, MARK
Ionfab 300 Plus
Ionfab300Plus is a modular System designed for ion beam etching. It is used in a wide variety of processes, particularly in the Semiconductor and Optical Coating Industries.
Ionfab300Plus is a modular System designed for ion beam etching. It is used in a wide variety of processes, particularly in the Semiconductor and Optical Coating Industries.
Ionfab300Plus is a modular System designed for ion beam etching. It is used in a wide variety of processes, particularly in the Semiconductor and Optical Coating Industries.
E10243
LESSEY, MARK
EVG620 Top Side Mask Aligner
The EVG 620 provides high precision manual alignment on wafers. This is the main maks aligner of the cleanroom and can handle wafer sizes up to 150mm. Exposure can be performed in hard, soft and proximity modes.
The EVG 620 provides high precision manual alignment on wafers. This is the main maks aligner of the cleanroom and can handle wafer sizes up to 150mm. Exposure can be performed in hard, soft and proximity modes.
The EVG 620 provides high precision manual alignment on wafers. This is the main maks aligner of the cleanroom and can handle wafer sizes up to 150mm. Exposure can be performed in hard, soft and proximity modes.
E10244
LESSEY, MARK
EVG620 Double Side Mask Aligner
The EVG620 is a dual-use tool designed for optical double-side lithography and precision alignment up to 150 mm wafer sizes. The fully-automated EVG620 utilizes a cassette-to-cassette handling system to efficiently process wafers from 50 mm to 150 mm in diameter, regardless of their shape or thickness. The system safely handles thick, bowed or small diameter wafers. The EVG620 superior alignment stage design achieves highly accurate alignment and exposure results while maintaining high throughput.
The EVG620 is a dual-use tool designed for optical double-side lithography and precision alignment up to 150 mm wafer sizes. The fully-automated EVG620 utilizes a cassette-to-cassette handling system to efficiently process wafers from 50 mm to 150 mm in diameter, regardless of their shape or thickness. The system safely handles thick, bowed or small diameter wafers. The EVG620 superior alignment stage design achieves highly accurate alignment and exposure results while maintaining high throughput.
The EVG620 is a dual-use tool designed for optical double-side lithography and precision alignment up to 150 mm wafer sizes. The fully-automated EVG620 utilizes a cassette-to-cassette handling system to efficiently process wafers from 50 mm to 150 mm in diameter, regardless of their shape or thickness. The system safely handles thick, bowed or small diameter wafers. The EVG620 superior alignment stage design achieves highly accurate alignment and exposure results while maintaining high throughput.
E10245
LESSEY, MARK
Evg620 Double Side Mask Aligner
The EVG620 is a dual-use tool designed for optical double-side lithography and precision alignment up to 150 mm wafer sizes. The fully-automated EVG620 utilizes a cassette-to-cassette handling system to efficiently process wafers from 50 mm to 150 mm in diameter, regardless of their shape or thickness. The system safely handles thick, bowed or small diameter wafers. The EVG620 superior alignment stage design achieves highly accurate alignment and exposure results while maintaining high throughput.
The EVG620 is a dual-use tool designed for optical double-side lithography and precision alignment up to 150 mm wafer sizes. The fully-automated EVG620 utilizes a cassette-to-cassette handling system to efficiently process wafers from 50 mm to 150 mm in diameter, regardless of their shape or thickness. The system safely handles thick, bowed or small diameter wafers. The EVG620 superior alignment stage design achieves highly accurate alignment and exposure results while maintaining high throughput.
The EVG620 is a dual-use tool designed for optical double-side lithography and precision alignment up to 150 mm wafer sizes. The fully-automated EVG620 utilizes a cassette-to-cassette handling system to efficiently process wafers from 50 mm to 150 mm in diameter, regardless of their shape or thickness. The system safely handles thick, bowed or small diameter wafers. The EVG620 superior alignment stage design achieves highly accurate alignment and exposure results while maintaining high throughput.
E10246
LESSEY, MARK
Hurco Vm1 - 10K 3 Axis CNC milling machine
E10424
LONG, MARK
Alpha-At Analyzer
E10425
MORGAN, HYWEL
Radio Frequency Test Kit
E10434
DE GROOT, CORNELIS
Zetasizer Nano-Xs
Dynamic light scattering system for the determination of the size and zeta potential of suspended nanoparticles in solution.
Dynamic light scattering system for the determination of the size and zeta potential of suspended nanoparticles in solution.
Dynamic light scattering system for the determination of the size and zeta potential of suspended nanoparticles in solution.
E10248
LESSEY, MARK
Nvision 40 Fib
The focussed ion beam (FIB) is a multi nanofabrication tool system capable of performing sophisticated nanomachining, in-situ metal or insulator deposition, lithography and metrology analysis. This versatile system is based on the dual ion and electron beams column concept, which allows it to perform ionic nanofabrication function while imaging using the scanning electron microscope. The liquid metal ion source (LMIS) for the system is gallium and it is integrated to an ionisation tungsten tip to produce a fine and high resolution ion beam. The additional features in the FIB are ion and electron beam induced deposition using gaseous metal-insulator sources.
The focussed ion beam (FIB) is a multi nanofabrication tool system capable of performing sophisticated nanomachining, in-situ metal or insulator deposition, lithography and metrology analysis. This versatile system is based on the dual ion and electron beams column concept, which allows it to perform ionic nanofabrication function while imaging using the scanning electron microscope. The liquid metal ion source (LMIS) for the system is gallium and it is integrated to an ionisation tungsten tip to produce a fine and high resolution ion beam. The additional features in the FIB are ion and electron beam induced deposition using gaseous metal-insulator sources.
The focussed ion beam (FIB) is a multi nanofabrication tool system capable of performing sophisticated nanomachining, in-situ metal or insulator deposition, lithography and metrology analysis. This versatile system is based on the dual ion and electron beams column concept, which allows it to perform ionic nanofabrication function while imaging using the scanning electron microscope. The liquid metal ion source (LMIS) for the system is gallium and it is integrated to an ionisation tungsten tip to produce a fine and high resolution ion beam. The additional features in the FIB are ion and electron beam induced deposition using gaseous metal-insulator sources.
E10249
LESSEY, MARK
Nanofab 1000 Agile
Plasma Enhanced Chemical Vapour Deposition (PECVD) system for the growth of carbon nanotubes (CNTs) and Si, SiGe and Ge nanowires. CNT growth temperatures are typically between 600 and 800C. Aligned growth of CNTs can be achieved with a growth rate up to 40 nm/min and random growth can be achieved with growth rates up to hundreds of nm/min. CNT diameters are typically less than 100nm, but depend on catalyst particle size. Silicon nanowires typically require silane for growth at temperatures of 330 - 650C, and vertical growth rates up to 150nm/min can be achieved. Germanium nanowires typically require germane for growth. SiGe nanowires can be grown by mixing silane and germane Heterojunctions can be created in the SiGe nanowires by appropriate control of the flows. All nanowires can be doped p or n type with the addition of diborane or phosphine to a process
Plasma Enhanced Chemical Vapour Deposition (PECVD) system for the growth of carbon nanotubes (CNTs) and Si, SiGe and Ge nanowires. CNT growth temperatures are typically between 600 and 800C. Aligned growth of CNTs can be achieved with a growth rate up to 40 nm/min and random growth can be achieved with growth rates up to hundreds of nm/min. CNT diameters are typically less than 100nm, but depend on catalyst particle size. Silicon nanowires typically require silane for growth at temperatures of 330 - 650C, and vertical growth rates up to 150nm/min can be achieved. Germanium nanowires typically require germane for growth. SiGe nanowires can be grown by mixing silane and germane Heterojunctions can be created in the SiGe nanowires by appropriate control of the flows. All nanowires can be doped p or n type with the addition of diborane or phosphine to a process
Plasma Enhanced Chemical Vapour Deposition (PECVD) system for the growth of carbon nanotubes (CNTs) and Si, SiGe and Ge nanowires. CNT growth temperatures are typically between 600 and 800C. Aligned growth of CNTs can be achieved with a growth rate up to 40 nm/min and random growth can be achieved with growth rates up to hundreds of nm/min. CNT diameters are typically less than 100nm, but depend on catalyst particle size. Silicon nanowires typically require silane for growth at temperatures of 330 - 650C, and vertical growth rates up to 150nm/min can be achieved. Germanium nanowires typically require germane for growth. SiGe nanowires can be grown by mixing silane and germane Heterojunctions can be created in the SiGe nanowires by appropriate control of the flows. All nanowires can be doped p or n type with the addition of diborane or phosphine to a process
E10250
LESSEY, MARK
Mbr System Laser
E10509
LAGOUDAKIS, PAVLOS
Sapphire Laser Upgrade
E10510
FREY, JEREMY
Atomic layer deposition system
The FlexAl system allows the deposition of ultra-thin layers (typically a few nm) of a variety of metal oxides and nitrides from liquid precursors. The deposition process works by providing a short pulse of precursor, followed by purge and exhaust steps. This cycle is then repeated to build up a layer. Typical growth rates are around 1A/cycle. The system is currently configured for the deposition of ZnO and Al2O3. ZnO is deposited using a DEZ precursor. The deposition rate is typically 1A/cycle at 150C. The refractive index of ALD ZnO varies from 1.75 at low temperature to 1.83 at high temperaure, compared with 1.985 for bulk ZnO. Annealing at 425C (not optimised) can help improve electrical properties.
The FlexAl system allows the deposition of ultra-thin layers (typically a few nm) of a variety of metal oxides and nitrides from liquid precursors. The deposition process works by providing a short pulse of precursor, followed by purge and exhaust steps. This cycle is then repeated to build up a layer. Typical growth rates are around 1A/cycle. The system is currently configured for the deposition of ZnO and Al2O3. ZnO is deposited using a DEZ precursor. The deposition rate is typically 1A/cycle at 150C. The refractive index of ALD ZnO varies from 1.75 at low temperature to 1.83 at high temperaure, compared with 1.985 for bulk ZnO. Annealing at 425C (not optimised) can help improve electrical properties.
The FlexAl system allows the deposition of ultra-thin layers (typically a few nm) of a variety of metal oxides and nitrides from liquid precursors. The deposition process works by providing a short pulse of precursor, followed by purge and exhaust steps. This cycle is then repeated to build up a layer. Typical growth rates are around 1A/cycle. The system is currently configured for the deposition of ZnO and Al2O3. ZnO is deposited using a DEZ precursor. The deposition rate is typically 1A/cycle at 150C. The refractive index of ALD ZnO varies from 1.75 at low temperature to 1.83 at high temperaure, compared with 1.985 for bulk ZnO. Annealing at 425C (not optimised) can help improve electrical properties.
E10251
LESSEY, MARK
Opt System 100 Pecvd
Plasma Enhanced Chemical Vapour Deposition (PECVD) system for the growth of amorphous and polycrystalline Si, SiGe and Ge layers. The layers can be doped during growth either n-type (using PH3) or p-type (using B2H6), thereby allowing p-n junctions to be formed. Amorphous silicon uses SiH4 for the source of silicon and CF4 & O2 for cleaning. The growth temperature is typically 250C, giving a growth rate of around 25 nm/min. Stress in the deposited layer is typically <200Mpa. Polycrystalline silicon uses SiH4 for the source of silicon and CF4 & O2 for cleaning. The growth temperature is typically >=610C. The growth rate at 610C is ~2 nm/min and at 650C ~ 20nm/min. Microcrystalline silicon uses SiH4 for the source of silicon and CF4 & O2 for cleaning. The growth temperature is typically in the range 585 - 610C, giving growth rates in the range 1 - 2 nm/min. Amorphous and polycrystalline germanium use GeH4 as a source of Ge and CF4 & O2 for cleaning.
Plasma Enhanced Chemical Vapour Deposition (PECVD) system for the growth of amorphous and polycrystalline Si, SiGe and Ge layers. The layers can be doped during growth either n-type (using PH3) or p-type (using B2H6), thereby allowing p-n junctions to be formed. Amorphous silicon uses SiH4 for the source of silicon and CF4 & O2 for cleaning. The growth temperature is typically 250C, giving a growth rate of around 25 nm/min. Stress in the deposited layer is typically <200Mpa. Polycrystalline silicon uses SiH4 for the source of silicon and CF4 & O2 for cleaning. The growth temperature is typically >=610C. The growth rate at 610C is ~2 nm/min and at 650C ~ 20nm/min. Microcrystalline silicon uses SiH4 for the source of silicon and CF4 & O2 for cleaning. The growth temperature is typically in the range 585 - 610C, giving growth rates in the range 1 - 2 nm/min. Amorphous and polycrystalline germanium use GeH4 as a source of Ge and CF4 & O2 for cleaning.
Plasma Enhanced Chemical Vapour Deposition (PECVD) system for the growth of amorphous and polycrystalline Si, SiGe and Ge layers. The layers can be doped during growth either n-type (using PH3) or p-type (using B2H6), thereby allowing p-n junctions to be formed. Amorphous silicon uses SiH4 for the source of silicon and CF4 & O2 for cleaning. The growth temperature is typically 250C, giving a growth rate of around 25 nm/min. Stress in the deposited layer is typically <200Mpa. Polycrystalline silicon uses SiH4 for the source of silicon and CF4 & O2 for cleaning. The growth temperature is typically >=610C. The growth rate at 610C is ~2 nm/min and at 650C ~ 20nm/min. Microcrystalline silicon uses SiH4 for the source of silicon and CF4 & O2 for cleaning. The growth temperature is typically in the range 585 - 610C, giving growth rates in the range 1 - 2 nm/min. Amorphous and polycrystalline germanium use GeH4 as a source of Ge and CF4 & O2 for cleaning.
E10253
LESSEY, MARK
Coolpower 4.2Gm Two Stge Systems (Obsolete/Decommissioned YE 15/16 - per YY 04/08/2016)
BAK600 e-gun/thermal evaporator is configured for non-reactive deposition of metal contact stacks , metal masking layers, some dielectrics, ITO.
BAK600 e-gun/thermal evaporator is configured for non-reactive deposition of metal contact stacks , metal masking layers, some dielectrics, ITO.
BAK600 e-gun/thermal evaporator is configured for non-reactive deposition of metal contact stacks , metal masking layers, some dielectrics, ITO.
E10255
YANG, YIFENG
Transmission Microscope (DHM)
Lyncée Tec¿s DHM T1000 series is composed of the only transmission configured optical profilers on the market. Based on Digital Holographic Microscopy technology, its contactless full-field 3D optical topography performed at video rate makes it an ideal tool for quantitative dynamic and static measurements.
Lyncée Tec¿s DHM T1000 series is composed of the only transmission configured optical profilers on the market. Based on Digital Holographic Microscopy technology, its contactless full-field 3D optical topography performed at video rate makes it an ideal tool for quantitative dynamic and static measurements.
Lyncée Tec¿s DHM T1000 series is composed of the only transmission configured optical profilers on the market. Based on Digital Holographic Microscopy technology, its contactless full-field 3D optical topography performed at video rate makes it an ideal tool for quantitative dynamic and static measurements.
E10393
KAZANSKY, PETER
Streak Camera System
E10506
LAGOUDAKIS, PAVLOS
MM_Wave System
E10396
FEDOTOV, VASSILI
Mira 900F V10 XW Opt 220 Control Box
Control box for Mira 900F, used for mode locking and monitoring of output power
Control box for Mira 900F, used for mode locking and monitoring of output power
Control box for Mira 900F, used for mode locking and monitoring of output power
E10417
EASON, ROBERT
Verdi 10 W solid state Laser System
10W solid state Coherent Verdi-10, continuous wave pump laser, used for pumping Mira 900
10W solid state Coherent Verdi-10, continuous wave pump laser, used for pumping Mira 900
10W solid state Coherent Verdi-10, continuous wave pump laser, used for pumping Mira 900
E10418
EASON, ROBERT
Coherent RegA 9000 Controller
Control box for Coherent RegA, used for optimising cavity injection and ejection timings
Control box for Coherent RegA, used for optimising cavity injection and ejection timings
Control box for Coherent RegA, used for optimising cavity injection and ejection timings
E10419
EASON, ROBERT
1000x Direct Diode Laser Serial No. 330739 (purchased in 2003)
E10421
NILSSON, LARS
Upgrade Of Rm1000 Raman Microscope
E10426
LEWIN, PAUL
Beckton Dickinson Facsaria Flow Cytometer (S/N 33478)
FACSAria 3 laser analyser and a Laser Scanning Cytometer.
FACSAria 3 laser analyser and a Laser Scanning Cytometer.
FACSAria 3 laser analyser and a Laser Scanning Cytometer.
E10428
CHALLIS, RUTH
Laser: Dynamic Light Scattering Detector (Batch & Flow mode)
E10530
SKINNER, HARVEY
Hurco Vm10U 30k 5 axis CNC milling machine
E10433
LONG, MARK
Gis System For Orion Microscope
Gis System For Orion Microscope
Gis System For Orion Microscope
Gis System For Orion Microscope
E10438
LESSEY, MARK
AC transformer test cascade 300kV, 0.19A, 50Hz (ACS 300-0.19)
E10439
PALMER, NEIL
Nikon L200D microscope
Upright 8" yellow room microscope, 5M camera, 5x to 150x objectives, Nomarski
Upright 8" yellow room microscope, 5M camera, 5x to 150x objectives, Nomarski
Upright 8" yellow room microscope, 5M camera, 5x to 150x objectives, Nomarski
E10272
LESSEY, MARK
Nikon LV100D Bioelectronics microscope
Upright 6" bioMEMS microscope, 5m camera, display & software, 5x to 150x objectives, Nomarski
Upright 6" bioMEMS microscope, 5m camera, display & software, 5x to 150x objectives, Nomarski
Upright 6" bioMEMS microscope, 5m camera, display & software, 5x to 150x objectives, Nomarski
E10273
LESSEY, MARK
DC Device Multi Probe Station
Cascade Microtech prober, 4 x DCM 210 positioners, Agilent 4155C Semiconductor Parameter Analyser, Agilent 4279A 1MHz CV meter, Agilent E4443A sHz-6.7GHz spectrum analyser, Agilent MXG N5181A analog signal generator 250 KHz-1 GHz
Cascade Microtech prober, 4 x DCM 210 positioners, Agilent 4155C Semiconductor Parameter Analyser, Agilent 4279A 1MHz CV meter, Agilent E4443A sHz-6.7GHz spectrum analyser, Agilent MXG N5181A analog signal generator 250 KHz-1 GHz
Cascade Microtech prober, 4 x DCM 210 positioners, Agilent 4155C Semiconductor Parameter Analyser, Agilent 4279A 1MHz CV meter, Agilent E4443A sHz-6.7GHz spectrum analyser, Agilent MXG N5181A analog signal generator 250 KHz-1 GHz
E10274
LESSEY, MARK
Summit 12000B-Ap Probe Station Platform
Semi-automatic 200mm probe station with micro-chamber, temperature control -65-200C. 4x67GHz infinity probes, eVue digital imaging system
Semi-automatic 200mm probe station with micro-chamber, temperature control -65-200C. 4x67GHz infinity probes, eVue digital imaging system
Semi-automatic 200mm probe station with micro-chamber, temperature control -65-200C. 4x67GHz infinity probes, eVue digital imaging system
E10275
DE GROOT, CORNELIS
Tempress Clean Furnace Stack
150mm wafers, automated loading, dru oxidation 600-1150C, wet oxidation 600-1150C, anneal 600-1150C, temperature accuracy +/- 1C, 25 wafer boats.
150mm wafers, automated loading, dru oxidation 600-1150C, wet oxidation 600-1150C, anneal 600-1150C, temperature accuracy +/- 1C, 25 wafer boats.
150mm wafers, automated loading, dru oxidation 600-1150C, wet oxidation 600-1150C, anneal 600-1150C, temperature accuracy +/- 1C, 25 wafer boats.
E10284
ANTENEY, IAIN
Opt System 100 Pecvd Liquid Source
E10690
LESSEY, MARK
Silver 480M Full Pack Altair Workstation (Focal Plane)
E10554
GILES, ANDREW
Theta probe PARXPS system
Parallel angle-resolved XPS (PARXPS) analysis without sample tilting, ability to collect angle-resolved XPS spectra over a 60 degree angular range, in parallel, without tilting the sample and allows the instrument to characterise ultra-thin films non-destructively, allows composition depth profiling using an integrated etching module, X-ray monochrmator with user-selectable spot size in the range 15um to 400um,. Ability to handle large or multiple samples, CCD sample alignment microscope perpendicular to the sample surface.
Parallel angle-resolved XPS (PARXPS) analysis without sample tilting, ability to collect angle-resolved XPS spectra over a 60 degree angular range, in parallel, without tilting the sample and allows the instrument to characterise ultra-thin films non-destructively, allows composition depth profiling using an integrated etching module, X-ray monochrmator with user-selectable spot size in the range 15um to 400um,. Ability to handle large or multiple samples, CCD sample alignment microscope perpendicular to the sample surface.
Parallel angle-resolved XPS (PARXPS) analysis without sample tilting, ability to collect angle-resolved XPS spectra over a 60 degree angular range, in parallel, without tilting the sample and allows the instrument to characterise ultra-thin films non-destructively, allows composition depth profiling using an integrated etching module, X-ray monochrmator with user-selectable spot size in the range 15um to 400um,. Ability to handle large or multiple samples, CCD sample alignment microscope perpendicular to the sample surface.
E10276
LESSEY, MARK
Polytec MSA-400 Micro System Analyzer
3D MEMS dynamics and topography tester. Scanning laser vibrometry for out of plane vibrations up to 20MHz, stroboscopic video microscopy for in-plane motion & vibrations, white light interferometry for surface topography http://data.southampton.ac.uk/equipment/E10277.html
3D MEMS dynamics and topography tester. Scanning laser vibrometry for out of plane vibrations up to 20MHz, stroboscopic video microscopy for in-plane motion & vibrations, white light interferometry for surface topography http://data.southampton.ac.uk/equipment/E10277.html
3D MEMS dynamics and topography tester. Scanning laser vibrometry for out of plane vibrations up to 20MHz, stroboscopic video microscopy for in-plane motion & vibrations, white light interferometry for surface topography http://data.southampton.ac.uk/equipment/E10277.html
E10277
CHONG, HAROLD
12 Tesla Cryogen Free Magnet System (Q6003A)
12 Tesla cryogen-free magnet system with 25mm integrated VTI pulse tube cooler, 1.6K - 325k sample space of 25mm diameter, cooldown <24 hours, 300 degree sample rotation
12 Tesla cryogen-free magnet system with 25mm integrated VTI pulse tube cooler, 1.6K - 325k sample space of 25mm diameter, cooldown <24 hours, 300 degree sample rotation
12 Tesla cryogen-free magnet system with 25mm integrated VTI pulse tube cooler, 1.6K - 325k sample space of 25mm diameter, cooldown <24 hours, 300 degree sample rotation
E10278
LESSEY, MARK
Cascade Microtech M150 Mulitpurpose Probing System
150mm manual probe station, 6 probes, Leica S6 stereo zoom microscope, 0.6-4xzoom, 30 x eyepieces
150mm manual probe station, 6 probes, Leica S6 stereo zoom microscope, 0.6-4xzoom, 30 x eyepieces
150mm manual probe station, 6 probes, Leica S6 stereo zoom microscope, 0.6-4xzoom, 30 x eyepieces
E10279
DE GROOT, CORNELIS
ENA Series Network Analyzer
10MHz-67GHz. For use with Cascade probe station.
10MHz-67GHz. For use with Cascade probe station.
10MHz-67GHz. For use with Cascade probe station.
E10280
FEDOTOV, VASSILI
Jetfirst 200 Rta / Jetfirst 200 Rta No Pump
150mm wafers, temepratures from 400-1000/1200C (pyrometer), 400-1000C (thermocouple), times from 5s to 10mins, temperature accuracy +5c, temperature reproducibility
150mm wafers, temepratures from 400-1000/1200C (pyrometer), 400-1000C (thermocouple), times from 5s to 10mins, temperature accuracy +5c, temperature reproducibility
150mm wafers, temepratures from 400-1000/1200C (pyrometer), 400-1000C (thermocouple), times from 5s to 10mins, temperature accuracy +5c, temperature reproducibility
E10282
LESSEY, MARK
Benchtop Furnace
150mm wafers, manual loading, general furnace, temperature accuracy +/- 1C, 25 wafer boats.
150mm wafers, manual loading, general furnace, temperature accuracy +/- 1C, 25 wafer boats.
150mm wafers, manual loading, general furnace, temperature accuracy +/- 1C, 25 wafer boats.
E10283
LESSEY, MARK
Semco 800 Mastermill With Anilam 3300 CNC milling machine
E10480
LONG, MARK
Femtotrain & Compressor
E10507
APOSTOLOPOULOS, VASILEIOS
Grazing Incidence Vuv Spectrometer / Interface For Reading Images
E10511
FREY, JEREMY
5430 Fine Wire Bonder SN 30280
Ultrasonic wedge bonder, AI and Au wires (25um), minimum bond pads 50x50um2, bare silicon bonding, programmable individual bonding parameters.
Ultrasonic wedge bonder, AI and Au wires (25um), minimum bond pads 50x50um2, bare silicon bonding, programmable individual bonding parameters.
Ultrasonic wedge bonder, AI and Au wires (25um), minimum bond pads 50x50um2, bare silicon bonding, programmable individual bonding parameters.
E10287
LESSEY, MARK
Precision Scriber
Scribing of Si, glass & brittle materials. Scribing of glass in all directions with auto alignment function, handles up 300mm substrates with a thickness up to 2mm.
Scribing of Si, glass & brittle materials. Scribing of glass in all directions with auto alignment function, handles up 300mm substrates with a thickness up to 2mm.
Scribing of Si, glass & brittle materials. Scribing of glass in all directions with auto alignment function, handles up 300mm substrates with a thickness up to 2mm.
E10288
LESSEY, MARK
Vanadium Fibre Laser
Wafer scribing tool, Vanadium Fibre Laser (1064nm wavelength, 0.25mJ pulse energy, 25um spot size), up to 5000 mm/s scanning speed, programmable z-axis, 245 lens upgrade allowing 220mm diameter field size, vision system for lase focusiing
Wafer scribing tool, Vanadium Fibre Laser (1064nm wavelength, 0.25mJ pulse energy, 25um spot size), up to 5000 mm/s scanning speed, programmable z-axis, 245 lens upgrade allowing 220mm diameter field size, vision system for lase focusiing
Wafer scribing tool, Vanadium Fibre Laser (1064nm wavelength, 0.25mJ pulse energy, 25um spot size), up to 5000 mm/s scanning speed, programmable z-axis, 245 lens upgrade allowing 220mm diameter field size, vision system for lase focusiing
E10289
LESSEY, MARK
Woollam Md2000D Ellipsometer
Spectral range 190nm-1999nm, 200mm computer controlled sample positioning, auto angle of incidence
Spectral range 190nm-1999nm, 200mm computer controlled sample positioning, auto angle of incidence
Spectral range 190nm-1999nm, 200mm computer controlled sample positioning, auto angle of incidence
E10290
LESSEY, MARK
Long Scan Profilers
Measures roughness, waviness, step height and wafer stress, 2D and 3D fully autiomated data scans, sequencing capable, up to 8" substrates, vertical features from 100A-300um with a vertical resolution down to 0.5A.
Measures roughness, waviness, step height and wafer stress, 2D and 3D fully autiomated data scans, sequencing capable, up to 8" substrates, vertical features from 100A-300um with a vertical resolution down to 0.5A.
Measures roughness, waviness, step height and wafer stress, 2D and 3D fully autiomated data scans, sequencing capable, up to 8" substrates, vertical features from 100A-300um with a vertical resolution down to 0.5A.
E10291
LESSEY, MARK
Ambios Xp100 Stylus Surface Profiler
Vertical range to 400um, zoom optics 88-247x, 5um stylus, 10mm max scan length, manual X-Y stage.
Vertical range to 400um, zoom optics 88-247x, 5um stylus, 10mm max scan length, manual X-Y stage.
Vertical range to 400um, zoom optics 88-247x, 5um stylus, 10mm max scan length, manual X-Y stage.
E10292
LESSEY, MARK
Measurement system
Particle measurement tool, 150mm substrates, sub micron particles down to 0.2um, measurement time 30 sec on 6" wafers, particles sensitivity 0.2um diameter latex spheres, haze sensitivity 0.4ppm, spatial resolution 50um spacing minimum, measurement range 0.004um and 102um in twelve ranges and 256 gradations.
Particle measurement tool, 150mm substrates, sub micron particles down to 0.2um, measurement time 30 sec on 6" wafers, particles sensitivity 0.2um diameter latex spheres, haze sensitivity 0.4ppm, spatial resolution 50um spacing minimum, measurement range 0.004um and 102um in twelve ranges and 256 gradations.
Particle measurement tool, 150mm substrates, sub micron particles down to 0.2um, measurement time 30 sec on 6" wafers, particles sensitivity 0.2um diameter latex spheres, haze sensitivity 0.4ppm, spatial resolution 50um spacing minimum, measurement range 0.004um and 102um in twelve ranges and 256 gradations.
E10293
LESSEY, MARK
Femtosecond Laser System
Femtosecond optical charecterisation system, coherent laser, CCD camera & optics.
Femtosecond optical charecterisation system, coherent laser, CCD camera & optics.
Femtosecond optical charecterisation system, coherent laser, CCD camera & optics.
E10294
MILLS, BENJAMIN
Spin Coater
E10466
LESSEY, MARK
All band tunable laser, 1440nm to 1640nm
Enable precise characterization of advanced optical components. Signal output with low spontaneous emission (SSE) permits measurement of filters with highest dynamic range. ¿Highest measurement range through low spontaneous source emission (low SSE), Signal to SSE Ratio >70 dB/nm
¿Variable sweep speed up to 80nm/s
¿Wide tuning range units cover all transmission bands: 1260nm-1640nm
¿Built-in high performance 60dB attenuator
¿Built-in wavemeter with excellent wavelength-accuracy +/-3.6pm
Enable precise characterization of advanced optical components. Signal output with low spontaneous emission (SSE) permits measurement of filters with highest dynamic range. ¿Highest measurement range through low spontaneous source emission (low SSE), Signal to SSE Ratio >70 dB/nm
¿Variable sweep speed up to 80nm/s
¿Wide tuning range units cover all transmission bands: 1260nm-1640nm
¿Built-in high performance 60dB attenuator
¿Built-in wavemeter with excellent wavelength-accuracy +/-3.6pm
Enable precise characterization of advanced optical components. Signal output with low spontaneous emission (SSE) permits measurement of filters with highest dynamic range. ¿Highest measurement range through low spontaneous source emission (low SSE), Signal to SSE Ratio >70 dB/nm
¿Variable sweep speed up to 80nm/s
¿Wide tuning range units cover all transmission bands: 1260nm-1640nm
¿Built-in high performance 60dB attenuator
¿Built-in wavemeter with excellent wavelength-accuracy +/-3.6pm
E10297
GANAPATHY, SENTHIL
CW Tunable Laser System, comprising verdi- V6 WTR Riser Chiller etc
E10298
GANAPATHY, SENTHIL
Optical Spectrum Analyser (AQ6315A)
¿Optical fiber loss wavelength characteristics.
¿Optical filter loss evaluation.
¿Fiber grating characteristics evaluation.
¿Color analysis.
¿Parameter evaluation for LED, FP-LD and FB-LD.
¿WDM device characteristics.
¿evaluation.
¿Optical fiber loss wavelength characteristics.
¿Optical filter loss evaluation.
¿Fiber grating characteristics evaluation.
¿Color analysis.
¿Parameter evaluation for LED, FP-LD and FB-LD.
¿WDM device characteristics.
¿evaluation.
¿Optical fiber loss wavelength characteristics.
¿Optical filter loss evaluation.
¿Fiber grating characteristics evaluation.
¿Color analysis.
¿Parameter evaluation for LED, FP-LD and FB-LD.
¿WDM device characteristics.
¿evaluation.
E10299
SAHU, JAYANTA
Optical Spectrum Analyser (AQ6370)
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
E10300
GANAPATHY, SENTHIL
Quartz System
E10448
LESSEY, MARK
Multi Channel Data Acquisition System
E10555
GILES, ANDREW
5700 Base Receiver
E10606
GILES, ANDREW
Auto 306 Resistance Evaporation System
Desposition vaporator system. Evaporates commonly used metals (such as aluminum, chromium, silver, gold and many others).
Desposition vaporator system. Evaporates commonly used metals (such as aluminum, chromium, silver, gold and many others).
Desposition vaporator system. Evaporates commonly used metals (such as aluminum, chromium, silver, gold and many others).
E10304
LESSEY, MARK
Auto 500 Electron Beam Deposition System
BOC Edwards Auto 500 electron beam evaporation systems can deposit ultra pure films of materials with high melting points, and other materials that are difficult to deposit by resistance evaporation. Very fast deposition rates can be achieved using electron beam evaporation. Electron beam sources can hold more evaporant than resistance sources which allows the deposition of thick films and multiple coatings before the need to refill the electron beam source
BOC Edwards Auto 500 electron beam evaporation systems can deposit ultra pure films of materials with high melting points, and other materials that are difficult to deposit by resistance evaporation. Very fast deposition rates can be achieved using electron beam evaporation. Electron beam sources can hold more evaporant than resistance sources which allows the deposition of thick films and multiple coatings before the need to refill the electron beam source
BOC Edwards Auto 500 electron beam evaporation systems can deposit ultra pure films of materials with high melting points, and other materials that are difficult to deposit by resistance evaporation. Very fast deposition rates can be achieved using electron beam evaporation. Electron beam sources can hold more evaporant than resistance sources which allows the deposition of thick films and multiple coatings before the need to refill the electron beam source
E10305
SESSIONS, NEIL
Optical Spectrum Analyser (AQ6370)
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
E10306
SAHU, JAYANTA
Optical Spectrum Analyser (AQ6370)
E10307
HEWAK, DANIEL
Optical Spectrum Analyser (AQ6370)
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
E10308
BRAMBILLA, GILBERTO
Optical Spectrum Analyser (AQ6370)
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
The AQ6370 is Yokogawa`s high speed and high performance Optical Spectrum Analyzer for characterization of optical communications system and optical components. - High wavelength resolution: 0.02 nm
- Wide close-in dynamic range
- Single Mode and Multimode fiber test capability, via the same optical input:up to GI 62.5/125nm.
- Pulsed light measurement capability
E10309
NEWSON, TREVOR
Laser Guages For Tower
E10350
HEWAK, DANIEL
Glassworking Lathe
E10355
HEWAK, DANIEL
Optical Spectrum Analyser (Yokogawa AQ6315A)
The AQ-6515A/-6315B optical spectrum analyzer brings advanced capabilities to a wide range of applications, from light source evaluation to measurement of loss wavelength characteristics in
optical devices.
The AQ-6515A/-6315B optical spectrum analyzer brings advanced capabilities to a wide range of applications, from light source evaluation to measurement of loss wavelength characteristics in
optical devices.
The AQ-6515A/-6315B optical spectrum analyzer brings advanced capabilities to a wide range of applications, from light source evaluation to measurement of loss wavelength characteristics in
optical devices.
E10310
KAZANSKY, PETER
Platinum Liner & Buffer Plate
E10314
POLETTI, FRANCESCO
Glove Box 1: 2-Port Box / Glove Box 2: 4-Port Box
E10315
HEWAK, DANIEL
600C Environmental Oven
E10316
SESSIONS, NEIL
Picosecond Laser System
The Laser2000 range of picosecond lasers contains both high and low power lasers to cover a wide range of applications. The picosecond pulsed diode lasers and picosecond LED modules are particularly suitable for biomedical applications. High power picosecond lasers designed for industrial microprocessing offer a new level of precision and versatility.
The Laser2000 range of picosecond lasers contains both high and low power lasers to cover a wide range of applications. The picosecond pulsed diode lasers and picosecond LED modules are particularly suitable for biomedical applications. High power picosecond lasers designed for industrial microprocessing offer a new level of precision and versatility.
The Laser2000 range of picosecond lasers contains both high and low power lasers to cover a wide range of applications. The picosecond pulsed diode lasers and picosecond LED modules are particularly suitable for biomedical applications. High power picosecond lasers designed for industrial microprocessing offer a new level of precision and versatility.
E10318
KAZANSKY, PETER
P-16+ Stylus Surface Profiler
The P-16+ stylus profiler is a surface metrology analysis solution. This surface analysis solution`s precise force control provides excellent vertical resolution, precision, and reliability measurements. This surface analysis solution delivers automated step height analysis, surface contour, waviness and roughness measurements with detailed 2D or 3D analysis of topography for a variety of surfaces and materials
The P-16+ stylus profiler is a surface metrology analysis solution. This surface analysis solution`s precise force control provides excellent vertical resolution, precision, and reliability measurements. This surface analysis solution delivers automated step height analysis, surface contour, waviness and roughness measurements with detailed 2D or 3D analysis of topography for a variety of surfaces and materials
The P-16+ stylus profiler is a surface metrology analysis solution. This surface analysis solution`s precise force control provides excellent vertical resolution, precision, and reliability measurements. This surface analysis solution delivers automated step height analysis, surface contour, waviness and roughness measurements with detailed 2D or 3D analysis of topography for a variety of surfaces and materials
E10319
SESSIONS, NEIL
KLA Tencor Alpha Step IQ Stylus Profier
The Alpha-Step IQ stylus-based surface profiler combines high measurement precision with versatility and economy. Ideal for semiconductor pilot lines and materials research, this advanced surface profiler enables faster process learning and higher yields. With guaranteed 8Å (1 sigma) or 0.1% step height repeatability and sub-angstrom resolution, the Alpha-Step IQ surface profiler provides excellent repeatability and performance to analyze and monitor processes.
The Alpha-Step IQ stylus-based surface profiler combines high measurement precision with versatility and economy. Ideal for semiconductor pilot lines and materials research, this advanced surface profiler enables faster process learning and higher yields. With guaranteed 8Å (1 sigma) or 0.1% step height repeatability and sub-angstrom resolution, the Alpha-Step IQ surface profiler provides excellent repeatability and performance to analyze and monitor processes.
The Alpha-Step IQ stylus-based surface profiler combines high measurement precision with versatility and economy. Ideal for semiconductor pilot lines and materials research, this advanced surface profiler enables faster process learning and higher yields. With guaranteed 8Å (1 sigma) or 0.1% step height repeatability and sub-angstrom resolution, the Alpha-Step IQ surface profiler provides excellent repeatability and performance to analyze and monitor processes.
E10320
SESSIONS, NEIL
MRF High Temperature Vacuum Furnace
This furnace is capabale of reaching 2300C in rough vacuum or 1600C in oxygen.
This furnace is capabale of reaching 2300C in rough vacuum or 1600C in oxygen.
This furnace is capabale of reaching 2300C in rough vacuum or 1600C in oxygen.
E10321
SESSIONS, NEIL
Plasmalab 80 Plus / Compact Modular Plasma System
Parallel plate RF etcher for glass etching primarily using SF6 and CHF3. Can also be used for ashing using O2.
Parallel plate RF etcher for glass etching primarily using SF6 and CHF3. Can also be used for ashing using O2.
Parallel plate RF etcher for glass etching primarily using SF6 and CHF3. Can also be used for ashing using O2.
E10322
LESSEY, MARK
Plasmalab System 400 / Magnetron Sputtering System
Allows RF magnetron sputter deposition of dielectrics and metals in inert or reactive environments. 150mm diameter sputtering targets yield good uniformity over a 100mm wafer. Materials such as silica, germania-doped silica, alumina and tantalum pentoxide are routinely deposited. An additional Kurt Lesker Nano 3 sputterer is available for novel glass films.
Allows RF magnetron sputter deposition of dielectrics and metals in inert or reactive environments. 150mm diameter sputtering targets yield good uniformity over a 100mm wafer. Materials such as silica, germania-doped silica, alumina and tantalum pentoxide are routinely deposited. An additional Kurt Lesker Nano 3 sputterer is available for novel glass films.
Allows RF magnetron sputter deposition of dielectrics and metals in inert or reactive environments. 150mm diameter sputtering targets yield good uniformity over a 100mm wafer. Materials such as silica, germania-doped silica, alumina and tantalum pentoxide are routinely deposited. An additional Kurt Lesker Nano 3 sputterer is available for novel glass films.
E10323
SESSIONS, NEIL
GX Custom FT-IR Spectrometer (obsolete 1718)
The Frontier¿ IR/NIR system enables you to benefit from faster method development and reduced instrument costs. This single optimized system provides unique mid-IR and near-IR dual range performance. Automated range switching, at the touch of a button, enables you to quickly move onto your next sample without manual reconfiguration, increasing your productivity.
The Frontier¿ IR/NIR system enables you to benefit from faster method development and reduced instrument costs. This single optimized system provides unique mid-IR and near-IR dual range performance. Automated range switching, at the touch of a button, enables you to quickly move onto your next sample without manual reconfiguration, increasing your productivity.
The Frontier¿ IR/NIR system enables you to benefit from faster method development and reduced instrument costs. This single optimized system provides unique mid-IR and near-IR dual range performance. Automated range switching, at the touch of a button, enables you to quickly move onto your next sample without manual reconfiguration, increasing your productivity.
E10324
PILGRIM, JAMES
MA6 Mask Aligner
Allows printing of structures on flat substrates by replication of a mask using photoresist exposure and development followed by etching, for example. Feature sizes below 1 micron may be replicated over wafers up to 100mm diameter. Double-sided aligning allows alignment of features on both sides of a silicon wafer
Allows printing of structures on flat substrates by replication of a mask using photoresist exposure and development followed by etching, for example. Feature sizes below 1 micron may be replicated over wafers up to 100mm diameter. Double-sided aligning allows alignment of features on both sides of a silicon wafer
Allows printing of structures on flat substrates by replication of a mask using photoresist exposure and development followed by etching, for example. Feature sizes below 1 micron may be replicated over wafers up to 100mm diameter. Double-sided aligning allows alignment of features on both sides of a silicon wafer
E10329
SESSIONS, NEIL
Modified Material Testing Machine (M500-100CT)
The CT 500 range of twin column, computer controlled universal materials testing machine using Testometric's feature-rich winTest¿ software running under the Windows¿ operating system. Test setups are fully configurable and simple or more complex multi-stage test routines are controlled using the standard PC serial interface.
The CT 500 range of twin column, computer controlled universal materials testing machine using Testometric's feature-rich winTest¿ software running under the Windows¿ operating system. Test setups are fully configurable and simple or more complex multi-stage test routines are controlled using the standard PC serial interface.
The CT 500 range of twin column, computer controlled universal materials testing machine using Testometric's feature-rich winTest¿ software running under the Windows¿ operating system. Test setups are fully configurable and simple or more complex multi-stage test routines are controlled using the standard PC serial interface.
E10330
RICHARDSON, DAVID
Fibre Tapering & Bundling System (obsolete 1718)
Offers precision fusion splicing and fused fiber components critical to high-power fiber laser performance. This includes creating combiners and tapers, large mode area (LMA) fiber splicing, photonic crystal fiber (PCF) splicing, and large diameter fiber splicing with low loss.
Offers precision fusion splicing and fused fiber components critical to high-power fiber laser performance. This includes creating combiners and tapers, large mode area (LMA) fiber splicing, photonic crystal fiber (PCF) splicing, and large diameter fiber splicing with low loss.
Offers precision fusion splicing and fused fiber components critical to high-power fiber laser performance. This includes creating combiners and tapers, large mode area (LMA) fiber splicing, photonic crystal fiber (PCF) splicing, and large diameter fiber splicing with low loss.
E10331
BRAMBILLA, GILBERTO
Ionfab 300 Plus / Load Locked Ion Beam Etch System
Allows ion-beam milling of materials to produce etched structures following photolithography, for example. May also be used for reactive or chemically-assisted ion-beam etching, and for ion-beam deposition of materials from a target
Allows ion-beam milling of materials to produce etched structures following photolithography, for example. May also be used for reactive or chemically-assisted ion-beam etching, and for ion-beam deposition of materials from a target
Allows ion-beam milling of materials to produce etched structures following photolithography, for example. May also be used for reactive or chemically-assisted ion-beam etching, and for ion-beam deposition of materials from a target
E10332
SESSIONS, NEIL
Evo 50 HV SEM
The EVO®50 series provides quality results from a versatile analytical microscope with a very large specimen chamber. Whether the specimen requires imaging in high vacuum, XVP® or EP, the EVO®50 series is able to image to perfection.
The EVO®50 series provides quality results from a versatile analytical microscope with a very large specimen chamber. Whether the specimen requires imaging in high vacuum, XVP® or EP, the EVO®50 series is able to image to perfection.
The EVO®50 series provides quality results from a versatile analytical microscope with a very large specimen chamber. Whether the specimen requires imaging in high vacuum, XVP® or EP, the EVO®50 series is able to image to perfection.
E10333
SESSIONS, NEIL
E-Beam Writer
E10689
LESSEY, MARK
Dual Sided Drawing Tower
6 metre high dual-sided fibre drawing tower which is suitable for a range of silica-based optical fibres. Preforms up to 60 mm in diameter can be drawn into fibre utilising a unique furnace design. The drawing tower is also designed to accommodate the fabrication and coating of large diameter fibres, up to 1 mm in diameter, as well as ribbon geometries, and forms part of our research into high power (kW) fibre lasers
6 metre high dual-sided fibre drawing tower which is suitable for a range of silica-based optical fibres. Preforms up to 60 mm in diameter can be drawn into fibre utilising a unique furnace design. The drawing tower is also designed to accommodate the fabrication and coating of large diameter fibres, up to 1 mm in diameter, as well as ribbon geometries, and forms part of our research into high power (kW) fibre lasers
6 metre high dual-sided fibre drawing tower which is suitable for a range of silica-based optical fibres. Preforms up to 60 mm in diameter can be drawn into fibre utilising a unique furnace design. The drawing tower is also designed to accommodate the fabrication and coating of large diameter fibres, up to 1 mm in diameter, as well as ribbon geometries, and forms part of our research into high power (kW) fibre lasers
E10336
SAHU, JAYANTA
Microspectrometer System (QDI 302 UV)
The QDI 302 Microscope Spectrophotometer is designed to add spectroscopy and imaging to your optical microscope. It can also be used to upgrade a legacy microspectrometer or to add spectroscopic and film thickness capabilities to a probe station. The QDI 302 attaches to the microscope, microspectrometer or probe station and enables you to collect transmission, reflectance, polarization or even fluorescence spectra of microscopic samples. Depending upon the microscope optics and sources, the spectral range is from the deep UV to the near infrared region. With the QDI 302, high quality spectra of even sub-micron samples can be acquired non-destructively and with ease.
The QDI 302 Microscope Spectrophotometer is designed to add spectroscopy and imaging to your optical microscope. It can also be used to upgrade a legacy microspectrometer or to add spectroscopic and film thickness capabilities to a probe station. The QDI 302 attaches to the microscope, microspectrometer or probe station and enables you to collect transmission, reflectance, polarization or even fluorescence spectra of microscopic samples. Depending upon the microscope optics and sources, the spectral range is from the deep UV to the near infrared region. With the QDI 302, high quality spectra of even sub-micron samples can be acquired non-destructively and with ease.
The QDI 302 Microscope Spectrophotometer is designed to add spectroscopy and imaging to your optical microscope. It can also be used to upgrade a legacy microspectrometer or to add spectroscopic and film thickness capabilities to a probe station. The QDI 302 attaches to the microscope, microspectrometer or probe station and enables you to collect transmission, reflectance, polarization or even fluorescence spectra of microscopic samples. Depending upon the microscope optics and sources, the spectral range is from the deep UV to the near infrared region. With the QDI 302, high quality spectra of even sub-micron samples can be acquired non-destructively and with ease.
E10343
KAZANSKY, PETER
Optical Component Characterization System
E10344
KAZANSKY, PETER
Planar Air Bearing System
Designed to meet the exacting requirements of wafer, flat panel display and optical inspection and fabrication. The ABL/ABLH9000 incorporates an active preload on both vertical and horizontal surfaces. The opposing thin-film pressure maintains the bearing nominal gap tolerance. This design, in addition to the large air-bearing surface that distributes the load over a large surface area, results in a stage with outstanding stiffness that is ideal for heavy or offset loading.
Designed to meet the exacting requirements of wafer, flat panel display and optical inspection and fabrication. The ABL/ABLH9000 incorporates an active preload on both vertical and horizontal surfaces. The opposing thin-film pressure maintains the bearing nominal gap tolerance. This design, in addition to the large air-bearing surface that distributes the load over a large surface area, results in a stage with outstanding stiffness that is ideal for heavy or offset loading.
Designed to meet the exacting requirements of wafer, flat panel display and optical inspection and fabrication. The ABL/ABLH9000 incorporates an active preload on both vertical and horizontal surfaces. The opposing thin-film pressure maintains the bearing nominal gap tolerance. This design, in addition to the large air-bearing surface that distributes the load over a large surface area, results in a stage with outstanding stiffness that is ideal for heavy or offset loading.
E10348
GATES, JAMES
Soft Glass Drawing Tower
E10351
HEWAK, DANIEL
Special Furnace System
E10352
HEWAK, DANIEL
Quartz Tube Washer - Model 6600
E10353
HEWAK, DANIEL
Elevator Hearth Furnace (EHF 1818)
E10363
HEWAK, DANIEL
Fibre Rewinder & Proof Tester
E10365
SAHU, JAYANTA
Gantry Platform For 6M Silca Tower
E10368
SAHU, JAYANTA
AR ION Laser System
E10369
IBSEN, MORTEN
Opium Optical Parametric Oscillator
E10694
SAZIO, PIER-JOHN
EXFO Optical Sampling Oscilloscope (bandwidth: 500GHz)
E10378
PARMIGIANI, FRANCESCA
Newport Spectra Physics Mai Tai HP Ti:Sapphire Laser
Fully-automated mode-locked Ti:Sapphire laser: Spectral range 690-1040 nm; < 100 fs pulsewidth; > 2500 mW power at 800 nm
Fully-automated mode-locked Ti:Sapphire laser: Spectral range 690-1040 nm; < 100 fs pulsewidth; > 2500 mW power at 800 nm
Fully-automated mode-locked Ti:Sapphire laser: Spectral range 690-1040 nm; < 100 fs pulsewidth; > 2500 mW power at 800 nm
E10382
MACDONALD, KEVIN
Newport Spectra Physics Inspire HF100 Tuneable OPO
Hands-Free fully-automated fs OPO for gap-free operation at wavelengths from 345-2500 nm
Hands-Free fully-automated fs OPO for gap-free operation at wavelengths from 345-2500 nm
Hands-Free fully-automated fs OPO for gap-free operation at wavelengths from 345-2500 nm
E10383
MACDONALD, KEVIN
OVD Deposition Lathe & Furnace
E10384
SAHU, JAYANTA
Ti:Sapphire Laser System
E10695
SAZIO, PIER-JOHN
Quantum Efficiency System
E10446
DE GROOT, CORNELIS
Nanolink DPN 5000 System
E10387
SESSIONS, NEIL
ZeMetrics ZeScope Optical Profiling System
E10388
SESSIONS, NEIL
Backscatter Reflectometer (obsolete 1718)
E10390
SAHU, JAYANTA
Spectrum Analyser
E10392
RICHARDSON, DAVID
Leica GNSS Differential Global Positioning System
Survey Instrument measing position on Earth to centirmeter scale
Survey Instrument measing position on Earth to centirmeter scale
Survey Instrument measing position on Earth to centirmeter scale
E10672
RIDDY, LIAM
Horiba UVISEL-2 Spectroscopic Ellipsometer
UV-NIR variable-angle spectroscopic ellipsometer
UV-NIR variable-angle spectroscopic ellipsometer
UV-NIR variable-angle spectroscopic ellipsometer
E10674
MACDONALD, KEVIN
Saturn II Particle Laser(obsolete 1718)
High Definition Digital Particle Size Analyzer with: - State-of-the-art CCD with over three million detector elements
- Measurement range of 40 nanometers to 2500 micrometers
- Two available liquid sample handlers can test a wide variety of samples
- Fast and detailed results are repeatable on and reproducible between every
- Saturn DigiSizer
- One computer can control up to two analyzers
- Up to 18 samples may be handled without intervention when used in conjunction with the MasterTech 052 Autosampler
High Definition Digital Particle Size Analyzer with: - State-of-the-art CCD with over three million detector elements
- Measurement range of 40 nanometers to 2500 micrometers
- Two available liquid sample handlers can test a wide variety of samples
- Fast and detailed results are repeatable on and reproducible between every
- Saturn DigiSizer
- One computer can control up to two analyzers
- Up to 18 samples may be handled without intervention when used in conjunction with the MasterTech 052 Autosampler
High Definition Digital Particle Size Analyzer with: - State-of-the-art CCD with over three million detector elements
- Measurement range of 40 nanometers to 2500 micrometers
- Two available liquid sample handlers can test a wide variety of samples
- Fast and detailed results are repeatable on and reproducible between every
- Saturn DigiSizer
- One computer can control up to two analyzers
- Up to 18 samples may be handled without intervention when used in conjunction with the MasterTech 052 Autosampler
E10675
MORGAN, PETER
Leica C10 Terrestrial Laser Scanner
Survey instrument to create 3D point clouds up to a range of 200 metres with a precision of 2mm
Survey instrument to create 3D point clouds up to a range of 200 metres with a precision of 2mm
Survey instrument to create 3D point clouds up to a range of 200 metres with a precision of 2mm
E10676
RIDDY, LIAM
Benchtop UV Imager
The Minstrel DT UV is an ultraviolet and visible crystal imaging and protein crystal monitoring system. It automatically images crystallization experiments and links images with crystallization conditions. This robotic instrument is a major advance over previous visible light microscopy technology because its UV technology can find crystals in complex drops and easily distinguish protein crystals from non-protein crystals (such as salt).
The Minstrel DT UV is an ultraviolet and visible crystal imaging and protein crystal monitoring system. It automatically images crystallization experiments and links images with crystallization conditions. This robotic instrument is a major advance over previous visible light microscopy technology because its UV technology can find crystals in complex drops and easily distinguish protein crystals from non-protein crystals (such as salt).
The Minstrel DT UV is an ultraviolet and visible crystal imaging and protein crystal monitoring system. It automatically images crystallization experiments and links images with crystallization conditions. This robotic instrument is a major advance over previous visible light microscopy technology because its UV technology can find crystals in complex drops and easily distinguish protein crystals from non-protein crystals (such as salt).
E10678
TEWS, IVO
Gas Cabinet
E10456
LESSEY, MARK
Ccd Camera
E10458
SAITO, SHINICHI
Tube Furnace Pumps
E10442
LESSEY, MARK
4 Tube Furnace
E10443
LESSEY, MARK
Eye Tracker
We have two perambulatory eye trackers that are designed to allow the participants to move around in the real world whilst their eye movements are being recorded. Each tracker has two cameras, allowing the recording of both the participant`s eye movements and the scene in their field of view. These cameras are mounted on the frame of glasses, with the lightweight recording equipment and power supplies carried in a rucksack on the participant`s back as they are having their eye movements recorded.
We have two perambulatory eye trackers that are designed to allow the participants to move around in the real world whilst their eye movements are being recorded. Each tracker has two cameras, allowing the recording of both the participant`s eye movements and the scene in their field of view. These cameras are mounted on the frame of glasses, with the lightweight recording equipment and power supplies carried in a rucksack on the participant`s back as they are having their eye movements recorded.
We have two perambulatory eye trackers that are designed to allow the participants to move around in the real world whilst their eye movements are being recorded. Each tracker has two cameras, allowing the recording of both the participant`s eye movements and the scene in their field of view. These cameras are mounted on the frame of glasses, with the lightweight recording equipment and power supplies carried in a rucksack on the participant`s back as they are having their eye movements recorded.
E10444
WEAL, MARK
Software Expansion Pack For E-Beam
E10449
LESSEY, MARK
Solar Simulator
Solar simulators provide a broadband spectrum close to that of the sun from the UV to the IR. The main part of the solar simulator is a xenon arc lamp that reaches a color temperature of almost 6000K which is very close to sun light. We provide solar simulators with a wide range of luminous fields for different sample sizes and budgets, varying in size from 25 mm to 260 mm x 260 mm in diameter. The irradiance (W/m²) depends on the size of the desired output beam, the lamp¿s power input and the layout of the simulator¿s optic. The spectral characteristics are always the same.
Solar simulators provide a broadband spectrum close to that of the sun from the UV to the IR. The main part of the solar simulator is a xenon arc lamp that reaches a color temperature of almost 6000K which is very close to sun light. We provide solar simulators with a wide range of luminous fields for different sample sizes and budgets, varying in size from 25 mm to 260 mm x 260 mm in diameter. The irradiance (W/m²) depends on the size of the desired output beam, the lamp¿s power input and the layout of the simulator¿s optic. The spectral characteristics are always the same.
Solar simulators provide a broadband spectrum close to that of the sun from the UV to the IR. The main part of the solar simulator is a xenon arc lamp that reaches a color temperature of almost 6000K which is very close to sun light. We provide solar simulators with a wide range of luminous fields for different sample sizes and budgets, varying in size from 25 mm to 260 mm x 260 mm in diameter. The irradiance (W/m²) depends on the size of the desired output beam, the lamp¿s power input and the layout of the simulator¿s optic. The spectral characteristics are always the same.
E10450
DE GROOT, CORNELIS
Etching System
E10452
LESSEY, MARK
Orion Performance Upgrade Package
E10453
LESSEY, MARK
Dry Bed Absorber System
E10471
LESSEY, MARK
Monocl3
E10476
CHONG, HAROLD
Analysers/Generator - 3 Items Each Over £25K
E10478
CHONG, HAROLD
Orion Variable Accelerating Voltage Package
E10454
LESSEY, MARK
Orion Liquid Nitrogen Cooling Dewar System
E10455
LESSEY, MARK
Semiconductor Analyser
E10459
DE GROOT, CORNELIS
High Vacuum furnace
E10460
LESSEY, MARK
Laser Lithography System
E10464
ANTENEY, IAIN
Cryogenic Probe Station
E10465
LESSEY, MARK
2 Sawatec Hotplates
E10468
LESSEY, MARK
Vitesse Duo
Vitesse Duo are diode-pumped solid-state lasers using a 10W Verdi CW laser to both seed the Vitesse ultrafast oscillator and pump the RegA. The result is a compact and economical, 2-box, all-solid-state solution for high repetition rate, ultrafast amplification.
Vitesse Duo are diode-pumped solid-state lasers using a 10W Verdi CW laser to both seed the Vitesse ultrafast oscillator and pump the RegA. The result is a compact and economical, 2-box, all-solid-state solution for high repetition rate, ultrafast amplification.
Vitesse Duo are diode-pumped solid-state lasers using a 10W Verdi CW laser to both seed the Vitesse ultrafast oscillator and pump the RegA. The result is a compact and economical, 2-box, all-solid-state solution for high repetition rate, ultrafast amplification.
E10469
CHONG, HAROLD
Elemental Analysis: O-Orion-Rbs
E10473
LESSEY, MARK
Datic D2030 Spark Erosion Machine (EDM)
E10482
LONG, MARK
Electronic Magnet (De Groot)
E10486
ULBRICHT, HENDRIK
Biolight 1000
E10488
MACDONALD, KEVIN
Clear View: O-Orion-Clearview
E10474
LESSEY, MARK
Gatan X-ray Ultramicroscope (XuM) (accessory for the EVO SEM LS25 microscope)
The Gatan XuM utilises the electron beam in an scanning electron microscope to generate X-rays which are projected through a sample and onto an X-ray camera to form an image. This provides non-destructive imaging of the internal structure of suitable samples. The sample can be rotated and re-imaged multiple times to build up a tomographic dataset from which a 3D reconstruction of the sample can be generated. The resolution limit of this technique is ~400 nm.
The Gatan XuM utilises the electron beam in an scanning electron microscope to generate X-rays which are projected through a sample and onto an X-ray camera to form an image. This provides non-destructive imaging of the internal structure of suitable samples. The sample can be rotated and re-imaged multiple times to build up a tomographic dataset from which a 3D reconstruction of the sample can be generated. The resolution limit of this technique is ~400 nm.
The Gatan XuM utilises the electron beam in an scanning electron microscope to generate X-rays which are projected through a sample and onto an X-ray camera to form an image. This provides non-destructive imaging of the internal structure of suitable samples. The sample can be rotated and re-imaged multiple times to build up a tomographic dataset from which a 3D reconstruction of the sample can be generated. The resolution limit of this technique is ~400 nm.
E10475
BODEN, STUART
Pattern Generator
E10477
LESSEY, MARK
Raman System 1000
E10485
LEWIN, PAUL
Ex Demo V-570Pc Spectrophotometer System
UV/VIS/Near IR spectrophotometer used for Absorption, Transmission and Reflectance measurments from 190 - 2500nm
UV/VIS/Near IR spectrophotometer used for Absorption, Transmission and Reflectance measurments from 190 - 2500nm
UV/VIS/Near IR spectrophotometer used for Absorption, Transmission and Reflectance measurments from 190 - 2500nm
E10489
LEBLANC, KATHLEEN
Bridgeport Model Vmc 800X Vertical Machining Centre
E10491
SAVAGE, GARETH
Coherent Enterprise II 653 Ar Ion Laser
Ar Ion laser (352nm and 364nm). 80mW laser power class 3B. Mounted to direct write lithography system. Local ID: PH/1895
Ar Ion laser (352nm and 364nm). 80mW laser power class 3B. Mounted to direct write lithography system. Local ID: PH/1895
Ar Ion laser (352nm and 364nm). 80mW laser power class 3B. Mounted to direct write lithography system. Local ID: PH/1895
E10492
LEBLANC, KATHLEEN
Cryostat (5k to 600k)
E10612
LESSEY, MARK
CCD Sensor (S/N 01412-01-01)–Part of the FRODOSpec for the Liverpool Telescope in the Canary Islands
off campus
off campus
off campus
E10495
KNIGGE, CHRISTIAN
Red Optics And Lens Mounts – Part of the FRODOSpec for the Liverpool Telescope in the Canary Islands
off campus
off campus
off campus
E10496
KNIGGE, CHRISTIAN
Anechoic Chamber Project
Supplier Name: Emerson & Cuming Microwave Products
Supplier Name: Emerson & Cuming Microwave Products
Supplier Name: Emerson & Cuming Microwave Products
E10497
FEDOTOV, VASSILI
Beamlock 7W VIS/ UV Argon System Etc
Build into a confocal optical microscope
Build into a confocal optical microscope
Build into a confocal optical microscope
E10500
SMITH, DAVID
Lasers - Verdi V10 / OPA 9400
E10501
MILLS, BENJAMIN
Lasers - Verdi V5 / Mira 900F
E10502
LAGOUDAKIS, PAVLOS
Recirculating Water Chiller for Beamlock 7W UV Argon System (E10500)
Provides cooling water for Beamlock 7W Argon Laser E10500
Provides cooling water for Beamlock 7W Argon Laser E10500
Provides cooling water for Beamlock 7W Argon Laser E10500
E10505
SMITH, DAVID
Leo 1455VP Scanning Electron Microscope (SEM)
A 30KV, LaB6(or tungsten filament) scanning electron microscope equipped with an Everhart-Thornley secondary electron detector and a cambridge four quadrant backscatter detector. Maximum resolution is 10nm depending on column conditions.
A 30KV, LaB6(or tungsten filament) scanning electron microscope equipped with an Everhart-Thornley secondary electron detector and a cambridge four quadrant backscatter detector. Maximum resolution is 10nm depending on column conditions.
A 30KV, LaB6(or tungsten filament) scanning electron microscope equipped with an Everhart-Thornley secondary electron detector and a cambridge four quadrant backscatter detector. Maximum resolution is 10nm depending on column conditions.
E10512
LEBLANC, KATHLEEN
Shimatronic Clat Knitting Machine & Design System
E10515
KEIM, ODINA
Printer (large format)
The AGFA Flatbed Printer allows printing onto a range of rigid materials up to 158cm x 240cm.
The AGFA Flatbed Printer allows printing onto a range of rigid materials up to 158cm x 240cm.
The AGFA Flatbed Printer allows printing onto a range of rigid materials up to 158cm x 240cm.
E10517
CARLETON, CELESTE
Colour Printer (3D)
E10518
CARTER, CHRISTIAN
FLIR SC660 Camera with lens and microlens
E10961
GANAPATHY, SENTHIL
Tx2 Textile Digital Print System
With a virtual unlimited number of colors and a production speed up to 54 smq/hr our textile belt printer is perfect for high quality digital textile printing.
With a virtual unlimited number of colors and a production speed up to 54 smq/hr our textile belt printer is perfect for high quality digital textile printing.
With a virtual unlimited number of colors and a production speed up to 54 smq/hr our textile belt printer is perfect for high quality digital textile printing.
E10519
THOMPSON, NATALIE
Fast Piv System
Particle Image Velocimetry (PIV) measures whole velocity fields by taking two images shortly after each other and calculating the distance individual particles travelled within this time. From the known time difference and the measured displacement the velocity is calculated.
Particle Image Velocimetry (PIV) measures whole velocity fields by taking two images shortly after each other and calculating the distance individual particles travelled within this time. From the known time difference and the measured displacement the velocity is calculated.
Particle Image Velocimetry (PIV) measures whole velocity fields by taking two images shortly after each other and calculating the distance individual particles travelled within this time. From the known time difference and the measured displacement the velocity is calculated.
E10523
GANAPATHISUBRAMANI, BHARATHRAM
Thermographic System Variocam (obsolete 1718)
Thermographic System Variocam (obsolete 1718)
Thermographic System Variocam (obsolete 1718)
Thermographic System Variocam (obsolete 1718)
E10525
BAHAJ, ABUBAKR
Horiba Equipment - Board Emission System
E10527
WONG, ALAN
Asymmetric Flow Field-Flow Fractionator
Universal Particle/Polymer/Protein Separator.
Universal Particle/Polymer/Protein Separator.
Universal Particle/Polymer/Protein Separator.
E10529
POWRIE, WILLIAM
Scanning Kelvin Probe System
The SKP5050 system is our best-selling Kelvin
Probe system. This is the configuration we use
in-house for client samples. It is based upon the
ASKP system but includes highly recommended
options including color camera/TFT monitor, 2mm
and 50µm tips, external digital oscilloscope and an
extended warranty.
The SKP5050 system is our best-selling Kelvin
Probe system. This is the configuration we use
in-house for client samples. It is based upon the
ASKP system but includes highly recommended
options including color camera/TFT monitor, 2mm
and 50µm tips, external digital oscilloscope and an
extended warranty.
The SKP5050 system is our best-selling Kelvin
Probe system. This is the configuration we use
in-house for client samples. It is based upon the
ASKP system but includes highly recommended
options including color camera/TFT monitor, 2mm
and 50µm tips, external digital oscilloscope and an
extended warranty.
E10531
MARKVART, TOMAS
Dual Axis Air Bearing Sytem
¿High precision single plane X-Y positioning with optional airbearing
¿Silicon Carbide (SiC) stages freely slide on a granite reference plate using proprietary air bearing technology
¿Extremely rigid structure for rapid, sub-micron motion with quick settling time
¿Resolution up to 0.3 nm, 20 nm X-Y repeatability over full wafer
¿Velocity up to 400 mm/sec, acceleration up to 1.5 G
¿30,000 hr MTBF
¿High precision single plane X-Y positioning with optional airbearing
¿Silicon Carbide (SiC) stages freely slide on a granite reference plate using proprietary air bearing technology
¿Extremely rigid structure for rapid, sub-micron motion with quick settling time
¿Resolution up to 0.3 nm, 20 nm X-Y repeatability over full wafer
¿Velocity up to 400 mm/sec, acceleration up to 1.5 G
¿30,000 hr MTBF
¿High precision single plane X-Y positioning with optional airbearing
¿Silicon Carbide (SiC) stages freely slide on a granite reference plate using proprietary air bearing technology
¿Extremely rigid structure for rapid, sub-micron motion with quick settling time
¿Resolution up to 0.3 nm, 20 nm X-Y repeatability over full wafer
¿Velocity up to 400 mm/sec, acceleration up to 1.5 G
¿30,000 hr MTBF
E10532
GILES, ANDREW
Benchtop Ct 160Xi X-Ray Inspection System
E10552
OREFFO, RICHARD
Elf 3200 Test System
The BOSE Enduratec ELF 3200 is a DMA that perform dynamic tests on a wide range of materials, from very soft rubber to stiff nylons. The DMA has the capability to measure properties in compressive, tensile, and flexural modes
The BOSE Enduratec ELF 3200 is a DMA that perform dynamic tests on a wide range of materials, from very soft rubber to stiff nylons. The DMA has the capability to measure properties in compressive, tensile, and flexural modes
The BOSE Enduratec ELF 3200 is a DMA that perform dynamic tests on a wide range of materials, from very soft rubber to stiff nylons. The DMA has the capability to measure properties in compressive, tensile, and flexural modes
E10553
GILES, ANDREW
Cyto Vision Spot Ax Automated Fish Spot
E10633
REEVE, PAUL
Digital Volume Correlation Software
Quantitative imaging analysis software. DVC is not only capable of identifying defects and cracks before they are visible in the raw image, but it is also able to quantify the full volume strain distribution and actual magnitudes of the material displacements surrounding discontinuities. The level of information is extremely useful in validating Finite Element models of modern complex materials. Volume images can be imported into the software from a variety of sources such as:
¿X-Ray Computer Tomography
¿Magnetic Resonance Imaging (MRI)
¿Optical Coherence Tomography (OCT)
¿Confocal Microscopy
Quantitative imaging analysis software. DVC is not only capable of identifying defects and cracks before they are visible in the raw image, but it is also able to quantify the full volume strain distribution and actual magnitudes of the material displacements surrounding discontinuities. The level of information is extremely useful in validating Finite Element models of modern complex materials. Volume images can be imported into the software from a variety of sources such as:
¿X-Ray Computer Tomography
¿Magnetic Resonance Imaging (MRI)
¿Optical Coherence Tomography (OCT)
¿Confocal Microscopy
Quantitative imaging analysis software. DVC is not only capable of identifying defects and cracks before they are visible in the raw image, but it is also able to quantify the full volume strain distribution and actual magnitudes of the material displacements surrounding discontinuities. The level of information is extremely useful in validating Finite Element models of modern complex materials. Volume images can be imported into the software from a variety of sources such as:
¿X-Ray Computer Tomography
¿Magnetic Resonance Imaging (MRI)
¿Optical Coherence Tomography (OCT)
¿Confocal Microscopy
E10533
BOARDMAN, RICHARD
Cat.2 Lab (50%)
E10536
GILES, ANDREW
Prince CE System
The modular concept of the Prince Capillary Electrophoresis enables easy connection to any existing detector techniques e.g. UV-VIS, DAD, LIF, Fluorescence, conductivity and MS.
The modular concept of the Prince Capillary Electrophoresis enables easy connection to any existing detector techniques e.g. UV-VIS, DAD, LIF, Fluorescence, conductivity and MS.
The modular concept of the Prince Capillary Electrophoresis enables easy connection to any existing detector techniques e.g. UV-VIS, DAD, LIF, Fluorescence, conductivity and MS.
E10538
WHARTON, JULIAN
Noise & Vibration Isolation Chamber
E10540
WOOD, ROBERT
Scanning Electrochemical Workstation Software
The M370 software controls a fast and precise closed loop x, y, z positioning system with nanometer resolution and incorporates a flexible data acquisition system which enables the user to select the configuration most suited to their experiments
The M370 software controls a fast and precise closed loop x, y, z positioning system with nanometer resolution and incorporates a flexible data acquisition system which enables the user to select the configuration most suited to their experiments
The M370 software controls a fast and precise closed loop x, y, z positioning system with nanometer resolution and incorporates a flexible data acquisition system which enables the user to select the configuration most suited to their experiments
E10541
DENUAULT, GUY
High Frequency Friction Machine / Twin Roller Tribometer
E10542
GILES, ANDREW
PCT Pro-2000 (Measures Gas Sorption Properties - See Setaram Website)
Measures Gas Sorption Properties
Measures Gas Sorption Properties
Measures Gas Sorption Properties
E10543
BAVYKIN, DMITRY
High Kv System
E10544
GILES, ANDREW
Low Kv System
E10545
GILES, ANDREW
Milling Machine
E10546
GILES, ANDREW
Hpt System
E10547
LANGDON, TERENCE
Pem Fuel Cell Test Station
E10548
PONCE DE LEON ALBARRAN, CARLOS ALBERTO
Xyris 2000Tl (obsolete 1718)
The Xyris 2000 TL is a versatile surface profiler, integrating size and speed in one convenient package. It can be manufactured to a variety of specifications encompassing a range of sensor and motion system options. Systems are typically up to 200 mm x 300 mm scanning areas but larger variants are available on request. The triangulation laser offers high speed scanning at low cost.
The Xyris 2000 TL is a versatile surface profiler, integrating size and speed in one convenient package. It can be manufactured to a variety of specifications encompassing a range of sensor and motion system options. Systems are typically up to 200 mm x 300 mm scanning areas but larger variants are available on request. The triangulation laser offers high speed scanning at low cost.
The Xyris 2000 TL is a versatile surface profiler, integrating size and speed in one convenient package. It can be manufactured to a variety of specifications encompassing a range of sensor and motion system options. Systems are typically up to 200 mm x 300 mm scanning areas but larger variants are available on request. The triangulation laser offers high speed scanning at low cost.
E10556
GILES, ANDREW
Pyris 1 Dsc Subambient Rady Sys-Intraco
E10563
GILES, ANDREW
JSM-6500F Scanning Microscope
E10564
WANG, SHUNCAI
Vibration Test System
E10565
GILES, ANDREW
4 Column 200Kn Servo Hydraulic Fatigue Frame
E10566
GILES, ANDREW
Tunnel Control System
E10567
GILES, ANDREW
Xyris 4000 Wl 3D Surface Profiler
The Xyris 4000 CL (confocal laser) is a compact state of the art non contact surface profiling system that is capable of measuring form and thickness of various surfaces. It incorporates a CCD camera for on screen viewing of the surface under investigation, helping to identify areas or features of interest quickly and easily. The WL (white light) sensor offers increased performance for spherical or aspherical surface measurement.
The Xyris 4000 CL (confocal laser) is a compact state of the art non contact surface profiling system that is capable of measuring form and thickness of various surfaces. It incorporates a CCD camera for on screen viewing of the surface under investigation, helping to identify areas or features of interest quickly and easily. The WL (white light) sensor offers increased performance for spherical or aspherical surface measurement.
The Xyris 4000 CL (confocal laser) is a compact state of the art non contact surface profiling system that is capable of measuring form and thickness of various surfaces. It incorporates a CCD camera for on screen viewing of the surface under investigation, helping to identify areas or features of interest quickly and easily. The WL (white light) sensor offers increased performance for spherical or aspherical surface measurement.
E10568
GILES, ANDREW
Laser Strain Mapping System
E10569
GILES, ANDREW
Treadmill
E10575
GILES, ANDREW
Alasca With Ipc Etc
E10585
GILES, ANDREW
E1824 Twin Station Soil Consolidation Test Rig
E10592
GILES, ANDREW
Multi Axis Man Rated 6 D.O.F. Vibration Seat System
E10573
GILES, ANDREW
Base Huron 20 System (Obsolete as at YE 15/16)
E10576
TAKEUCHI, TAKASHI
Scanning Vibrometer & Accessories
E10579
GEMMELL, HARRIET
GC/MS POLARIS Q230 Ion-Trap with automated Combi-pal Headspace autosampler
E10580
SKINNER, HARVEY
Flash Ea112 Analyser
The Flash EA 2000 NC Analyzers delivers rapid, precise and environmental-friendly determinations of nitrogen and carbon in geological and agriculture materials such as soils, sediments or particulate materials obtained by filtration of sea, river, lake, or tap water. Unlike traditional techniques operations with Flash EA 1112 NC Analyzers does not involve any toxic or polluting substances. Rapid method for routine work.
The Flash EA 2000 NC Analyzers delivers rapid, precise and environmental-friendly determinations of nitrogen and carbon in geological and agriculture materials such as soils, sediments or particulate materials obtained by filtration of sea, river, lake, or tap water. Unlike traditional techniques operations with Flash EA 1112 NC Analyzers does not involve any toxic or polluting substances. Rapid method for routine work.
The Flash EA 2000 NC Analyzers delivers rapid, precise and environmental-friendly determinations of nitrogen and carbon in geological and agriculture materials such as soils, sediments or particulate materials obtained by filtration of sea, river, lake, or tap water. Unlike traditional techniques operations with Flash EA 1112 NC Analyzers does not involve any toxic or polluting substances. Rapid method for routine work.
E10581
GILES, ANDREW
X Seriesii Icp-Ms System
E10586
SKINNER, HARVEY
Triaxial Testing System
The GDS Triaxial Automated System (GDSTAS) is a load frame-based triaxial testing system which may be configured exactly to the customers specification and budget. Using the GDS range of load frames, triaxial cells, pressure systems and the GDSLAB software, the basic system can be configured for low cost multi-station commercial testing right through to high range rock testing at research level. Using GDSLAB with optional software modules, GDSTAS can run advanced tests such as stress paths, slow cyclic and K0, all under PC control
The GDS Triaxial Automated System (GDSTAS) is a load frame-based triaxial testing system which may be configured exactly to the customers specification and budget. Using the GDS range of load frames, triaxial cells, pressure systems and the GDSLAB software, the basic system can be configured for low cost multi-station commercial testing right through to high range rock testing at research level. Using GDSLAB with optional software modules, GDSTAS can run advanced tests such as stress paths, slow cyclic and K0, all under PC control
The GDS Triaxial Automated System (GDSTAS) is a load frame-based triaxial testing system which may be configured exactly to the customers specification and budget. Using the GDS range of load frames, triaxial cells, pressure systems and the GDSLAB software, the basic system can be configured for low cost multi-station commercial testing right through to high range rock testing at research level. Using GDSLAB with optional software modules, GDSTAS can run advanced tests such as stress paths, slow cyclic and K0, all under PC control
E10588
GILES, ANDREW
Bruker - EPR
E10968
LEVITT, MALCOLM
High Pressure Compressed Air System
E10596
GILES, ANDREW
Omicron Twin SNOM System
The TwinSNOM combines conventional microscopy, SNOM, shear-force AFM and optionally even laser scanning confocal microscopy or Needle-Sensor AFM in a single instrument.
The TwinSNOM combines conventional microscopy, SNOM, shear-force AFM and optionally even laser scanning confocal microscopy or Needle-Sensor AFM in a single instrument.
The TwinSNOM combines conventional microscopy, SNOM, shear-force AFM and optionally even laser scanning confocal microscopy or Needle-Sensor AFM in a single instrument.
E10609
ROGERS, EDWARD
Digital Ccd Spectroscopy System
liquid nitrogen cooled CCD sysem built into Raman Spectrometer
liquid nitrogen cooled CCD sysem built into Raman Spectrometer
liquid nitrogen cooled CCD sysem built into Raman Spectrometer
E10610
SMITH, DAVID
EVG620 Double Side Mask Aligner
The EVG620 is a dual-use tool designed for optical double-side lithography and precision alignment up to 150 mm wafer sizes. Volume production types and manual R&D systems are available. An ultra-soft wedge compensation together with a computer controlled contact force between the mask and wafer ensures that both yield and mask lifetime are dramatically increased while production costs are lowered. The fully-automated EVG620 utilizes a cassette-to-cassette handling system to efficiently process wafers from 50 mm to 150 mm in diameter, regardless of their shape or thickness. The system safely handles thick, bowed or small diameter wafers.
The EVG620 is a dual-use tool designed for optical double-side lithography and precision alignment up to 150 mm wafer sizes. Volume production types and manual R&D systems are available. An ultra-soft wedge compensation together with a computer controlled contact force between the mask and wafer ensures that both yield and mask lifetime are dramatically increased while production costs are lowered. The fully-automated EVG620 utilizes a cassette-to-cassette handling system to efficiently process wafers from 50 mm to 150 mm in diameter, regardless of their shape or thickness. The system safely handles thick, bowed or small diameter wafers.
The EVG620 is a dual-use tool designed for optical double-side lithography and precision alignment up to 150 mm wafer sizes. Volume production types and manual R&D systems are available. An ultra-soft wedge compensation together with a computer controlled contact force between the mask and wafer ensures that both yield and mask lifetime are dramatically increased while production costs are lowered. The fully-automated EVG620 utilizes a cassette-to-cassette handling system to efficiently process wafers from 50 mm to 150 mm in diameter, regardless of their shape or thickness. The system safely handles thick, bowed or small diameter wafers.
E10614
LESSEY, MARK
EVG150 Automated Resist Processing System
Designed to provide the widest range of process variations, the EVG100 series` modularity accepts spin and spray coating, developing, bake and chill modules to suit your individual production requirements. These systems accommodate the processing of an extensive range of materials such as positive and negative resists, polyimides, double-sided coating of thin resist layers, high viscosity resists, and edge protection coatings.
Designed to provide the widest range of process variations, the EVG100 series` modularity accepts spin and spray coating, developing, bake and chill modules to suit your individual production requirements. These systems accommodate the processing of an extensive range of materials such as positive and negative resists, polyimides, double-sided coating of thin resist layers, high viscosity resists, and edge protection coatings.
Designed to provide the widest range of process variations, the EVG100 series` modularity accepts spin and spray coating, developing, bake and chill modules to suit your individual production requirements. These systems accommodate the processing of an extensive range of materials such as positive and negative resists, polyimides, double-sided coating of thin resist layers, high viscosity resists, and edge protection coatings.
E10615
ANTENEY, IAIN
3 Stacis "Quiet Island" Support Systems
These systems are actively-damped tables onto which senstive pieces of equipment can be mounted to isolate them from vibrational interference. These are current employed underneath the Zeiss Orion Helium Ion Microscope, the Zeiss Nvision40 Focused Ion Beam and the Zeiss EVO Scanning Electron Microscope.
These systems are actively-damped tables onto which senstive pieces of equipment can be mounted to isolate them from vibrational interference. These are current employed underneath the Zeiss Orion Helium Ion Microscope, the Zeiss Nvision40 Focused Ion Beam and the Zeiss EVO Scanning Electron Microscope.
These systems are actively-damped tables onto which senstive pieces of equipment can be mounted to isolate them from vibrational interference. These are current employed underneath the Zeiss Orion Helium Ion Microscope, the Zeiss Nvision40 Focused Ion Beam and the Zeiss EVO Scanning Electron Microscope.
E10617
BODEN, STUART
Maxsys 900 - Raw Exhaust Analysis System
The MaxSys 900 Advanced Emissions Raw Analysis System is a highly sophisticated and innovative raw exhaust gas measurement device. The System offers solutions for a wide range of applications, providing the necessary flexibility and modularity to meet the different requirements in emissions measurement.
The MaxSys 900 Advanced Emissions Raw Analysis System is a highly sophisticated and innovative raw exhaust gas measurement device. The System offers solutions for a wide range of applications, providing the necessary flexibility and modularity to meet the different requirements in emissions measurement.
The MaxSys 900 Advanced Emissions Raw Analysis System is a highly sophisticated and innovative raw exhaust gas measurement device. The System offers solutions for a wide range of applications, providing the necessary flexibility and modularity to meet the different requirements in emissions measurement.
E10618
GILES, ANDREW
FLIR A6540 Thermal Imaging Camera plus FLIR Microscope Lens
E10974
GANAPATHY, SENTHIL
Alchemist Liquid Handler
Rigaku Alchemist desktop liquid handling system
Rigaku Alchemist desktop liquid handling system
Rigaku Alchemist desktop liquid handling system
E10642
TEWS, IVO
Rigaku 007-HF Diffractometer Copper Rotating Anode Diffractometer
Rigaku 007-HF Single Crystal X-ray diffractometer Cu anode equipped with HyPix-600HE detector and CryoStream. Data collection is possible between 80-500K
Rigaku 007-HF Single Crystal X-ray diffractometer Cu anode equipped with HyPix-600HE detector and CryoStream. Data collection is possible between 80-500K
Rigaku 007-HF Single Crystal X-ray diffractometer Cu anode equipped with HyPix-600HE detector and CryoStream. Data collection is possible between 80-500K
E10643
COLES, SIMON
Spider Diffractometer (Rigaku)
The R-AXIS Spider diffractometer comprises a Molybdenum sealed tube X-ray generator and an RAPID image plate detector system with a quarter chi goniometer. Data collections are typically performed at 120K under a cold stream of nitrogen using a Oxford Cryosystems 600 Series CryoStream.
The R-AXIS Spider diffractometer comprises a Molybdenum sealed tube X-ray generator and an RAPID image plate detector system with a quarter chi goniometer. Data collections are typically performed at 120K under a cold stream of nitrogen using a Oxford Cryosystems 600 Series CryoStream.
The R-AXIS Spider diffractometer comprises a Molybdenum sealed tube X-ray generator and an RAPID image plate detector system with a quarter chi goniometer. Data collections are typically performed at 120K under a cold stream of nitrogen using a Oxford Cryosystems 600 Series CryoStream.
E10645
LIGHT, MARK
Sequential X-Ray Spectrometer
The Philips Magix Pro¿ WD-XRF is used for routine major and trace element analysis of sediments, rocks, soils, ores, and oils. The sequential spectrometer is designed for fast, high precision, qualitative and quantitative elemental analysis. Samples are normally run under vacuum as fused glass discs, pressed powders and thin-films or under a He atmosphere for liquids.
The Philips Magix Pro¿ WD-XRF is used for routine major and trace element analysis of sediments, rocks, soils, ores, and oils. The sequential spectrometer is designed for fast, high precision, qualitative and quantitative elemental analysis. Samples are normally run under vacuum as fused glass discs, pressed powders and thin-films or under a He atmosphere for liquids.
The Philips Magix Pro¿ WD-XRF is used for routine major and trace element analysis of sediments, rocks, soils, ores, and oils. The sequential spectrometer is designed for fast, high precision, qualitative and quantitative elemental analysis. Samples are normally run under vacuum as fused glass discs, pressed powders and thin-films or under a He atmosphere for liquids.
E10652
CROUDACE, IAN
LaVision - Ultramicroscope
E10979
PAGE, ANTHONY
GATAN - 3VIEW2XP MICROTOME SYSTEM PLUS SOFTWARE
E10981
PAGE, ANTHONY
M Squared - Firefly-IR Widely Tunable, Pulsed Mid-Infrared Laser Tuning Range A
E10969
GANAPATHY, SENTHIL
Biophotonics Solutions MIIPS Box640 Pulse Shaper
Fully-automated SLM-based measurement and compression of femtosecond laser pulses; Arbitrary phase and amplitude modulation
Fully-automated SLM-based measurement and compression of femtosecond laser pulses; Arbitrary phase and amplitude modulation
Fully-automated SLM-based measurement and compression of femtosecond laser pulses; Arbitrary phase and amplitude modulation
E10978
MACDONALD, KEVIN
DC Sputter (Enhancement To Helios Sputter Tool)
E10708
LESSEY, MARK
Chameleon Laser System
E10721
ROGERS, EDWARD
Super Continuum System
E10722
PETROVICH, MARCO
Minstrel & Gallery
Minstrel HT UV for High Throughput Crystal Imaging
Minstrel HT UV for High Throughput Crystal Imaging
Minstrel HT UV for High Throughput Crystal Imaging
E10723
TEWS, IVO
SDS-MW Analysis System
E10726
REEVE, PAUL
FEE 3D Printing Facility (Zprinter 650 colour 3D)
E10728
COX, SIMON
Seahorse XF Extracellular Flux Analyser
E10730
REEVE, PAUL
Optical time domain reflectometer
E10740
PETROVICH, MARCO
Thermo Magnaray WDS Spectrometer
Wavelentgh dispersive x-ray spectroscopy accessory for quantitative analysis of SEM specimens, using standards.
Wavelentgh dispersive x-ray spectroscopy accessory for quantitative analysis of SEM specimens, using standards.
Wavelentgh dispersive x-ray spectroscopy accessory for quantitative analysis of SEM specimens, using standards.
E10734
CLARK, ALISTAIR
Fianium WhiteLase Supercontinuum Laser
Supercontinuum (<460 to >2400 nm) laser source; 20 MHz rep. rate; 2 W average power
Supercontinuum (<460 to >2400 nm) laser source; 20 MHz rep. rate; 2 W average power
Supercontinuum (<460 to >2400 nm) laser source; 20 MHz rep. rate; 2 W average power
E10738
MACDONALD, KEVIN
XF2 Insulator Enhanced Etch Gas Injector
Gas injection system for chemically-assisted focused ion beam milling of insulating materials
Gas injection system for chemically-assisted focused ion beam milling of insulating materials
Gas injection system for chemically-assisted focused ion beam milling of insulating materials
E10741
MACDONALD, KEVIN
Orion 8 Sputter System
E10757
ANTENEY, IAIN
Thermal imaging camera
E10761
PETROVICH, MARCO
Tunable laser source family
E10762
THOMSON, DAVID
10-50 PNA Network Analyser
E10772
THOMSON, DAVID
SWIR Camera
E10786
ROGERS, EDWARD
Savannah ALT S200 System
E10788
LESSEY, MARK
Prober Shuttle
E10789
BODEN, STUART
FACsvantage / FACstation McIntosh - Cell sorter with 488nm, 633nm and UV lasers
E10792
REEVE, PAUL
Hurco Hawk30M 3axis CNC Milling Machine
E10819
LONG, MARK
Glove Box with Gas Purification
E10838
HEWAK, DANIEL
Plasma System 300 (S/N 1314)
E10839
LESSEY, MARK
PVA Tepla 300 Plasma System
E10840
SESSIONS, NEIL
Triple Raman Spectrometer
High stray light Raman spectrometer capable of measuring Raman spectra with 1cm-1 resolution to within 10cm-1 of laser line
High stray light Raman spectrometer capable of measuring Raman spectra with 1cm-1 resolution to within 10cm-1 of laser line
High stray light Raman spectrometer capable of measuring Raman spectra with 1cm-1 resolution to within 10cm-1 of laser line
E10843
SMITH, DAVID
000000-0239-518
E10845
LESSEY, MARK
000000-0239-518
E10846
LESSEY, MARK
Additional Gas Supply to PO 60155802
E10852
LESSEY, MARK
Fibre Coating System
E10864
SAHU, JAYANTA
CCD Sensor (S/N 01502-22-02)–Part of the FRODOSpec for the Liverpool Telescope in the Canary Islands
off campus
off campus
off campus
E10865
KNIGGE, CHRISTIAN
Thermo Fisher Orbitrap elite dual-pressure linear ion trap mass spectrometer
E10866
REEVE, PAUL
Autoclave
E10871
REEVE, PAUL
Smartlab Diffractometer & Accessories - Includes HyPix 3000/GISAXS Stage upgrades 16/17
E10872
LIGHT, MARK
MiniFlex 600 X-Ray Diffractometer (Rigaku)
Powder X-ray diffractometer
Powder X-ray diffractometer
Powder X-ray diffractometer
E10881
COLES, SIMON
TGA-200 Complete System plus accessories
E10885
HAYES, JOHN
XEVO TQD SYSTEM reversed phase
E10895
LANGLEY, GRAHAM
XEVO TQD SYSTEM normal phase Mass spectrometer
E10896
LANGLEY, GRAHAM
Broadband Tunable Laser System with MCT detectors
E10903
GANAPATHY, SENTHIL
Laser tune QCL system with TEC MCT detector including upgrade and standard accessories
E10916
GANAPATHY, SENTHIL
Leica HDSP20 Terrestrial Laser Scanner
Survey instrument to create 3D point clouds up to a range of 200 metres with a precision of 2mm
Survey instrument to create 3D point clouds up to a range of 200 metres with a precision of 2mm
Survey instrument to create 3D point clouds up to a range of 200 metres with a precision of 2mm
E10920
RIDDY, LIAM
Femtolasers Integral Element PRO-500 Utrashort Pulse Oscillator
Hands-free femtosecond oscillator generating sub-10 fs pulses: >100 nm bandwidth at 800 nm; >500 mW average output power
Hands-free femtosecond oscillator generating sub-10 fs pulses: >100 nm bandwidth at 800 nm; >500 mW average output power
Hands-free femtosecond oscillator generating sub-10 fs pulses: >100 nm bandwidth at 800 nm; >500 mW average output power
E11007
MACDONALD, KEVIN
Becton Dickinson - Flow Cytometer
E11040
REEVE, PAUL
FEI Quanta 200 Scanning electron microscope
E11066
PAGE, ANTHONY
Fujikura FSM-100PPLUS Speciality Splicer Serial No. 1724
E11067
GATES, JAMES
SLM213 Solid-State Laser System
subproject code 514689104 PO60500186
subproject code 514689104 PO60500186
subproject code 514689104 PO60500186
E11165
GATES, JAMES
Finesse Pure 532nm 12W Laser and associated items (chiller and chiller plate)
Pump laser for Mira ps/fs laser system
Pump laser for Mira ps/fs laser system
Pump laser for Mira ps/fs laser system
E11174
SMITH, DAVID
Applied Engineering Customized UHV AWB Vacuum Bonder S/N087
PO60500131 Subproject 514689102
PO60500131 Subproject 514689102
PO60500131 Subproject 514689102
E11179
HIMSWORTH, MATTHEW
DISCO DCS1440 Automatic Cleaning System
E11043
GATES, JAMES
Keysight N9030A-544 PXA Signal Analyzer
PO60486656 Subproject 514689103
PO60486656 Subproject 514689103
PO60486656 Subproject 514689103
E11044
TROPPER, ANNE
Keysight N9030-P44 Preamplifier
PO60488656 Subproject 514689103
PO60488656 Subproject 514689103
PO60488656 Subproject 514689103
E11045
TROPPER, ANNE
ABL9000 (Air-Bearing Direct-Drive XY Linear Stage) System. P/N ABL900350/350
Subproject: 514689104
PO: 60552415
Trans: 50970888, 50970886, 50980893
Subproject: 514689104
PO: 60552415
Trans: 50970888, 50970886, 50980893
Subproject: 514689104
PO: 60552415
Trans: 50970888, 50970886, 50980893
E11186
GATES, JAMES
Contactless Wafer Geometry Gauge (P/N EHMX203-4-37-Q)
Subproject: 514658101
PO: 60565072
Trans: 50979101
Subproject: 514658101
PO: 60565072
Trans: 50979101
Subproject: 514658101
PO: 60565072
Trans: 50979101
E11187
GATES, JAMES
Semi-automatic surface grinder model DAG810
Subproject: 514658101
PO: 60562439
Trans: 50966660, 50979414
Subproject: 514658101
PO: 60562439
Trans: 50966660, 50979414
Subproject: 514658101
PO: 60562439
Trans: 50966660, 50979414
E11188
GATES, JAMES
u4 Mill 6 axis compact ultra-precision diamond micromachining system
Subproject: 514658101
PO: 60575798
Trans: 50982636
Subproject: 514658101
PO: 60575798
Trans: 50982636
Subproject: 514658101
PO: 60575798
Trans: 50982636
E11191
GATES, JAMES
SYNAPT G2-Si System
E11160
LANGLEY, GRAHAM
DMOptics Yokogawa AQ6373 Optical Spectrum Analyzer
E11047
GATES, JAMES
Ti:Saphhire Laser System
PO60486976 Subproject 514689103
PO60486976 Subproject 514689103
PO60486976 Subproject 514689103
E11049
TROPPER, ANNE
ABI 394 Oligonucleotide Synthesizer (S/N 96112087JT)
E11207
STULZ, EUGEN
Firestar ti100 100w 9.3um laser system
E11213
GATES, JAMES
Isoprime vario Isotope select Elemental Analyser coupled to an Isoprime 100 Isotope Ratio Mass Spec
Wlemental composition carbon and nitrogen as well as d13C and d15N stable isotopes in organic matrices (sediments, plants, plankton filters, biological tissues)
Wlemental composition carbon and nitrogen as well as d13C and d15N stable isotopes in organic matrices (sediments, plants, plankton filters, biological tissues)
Wlemental composition carbon and nitrogen as well as d13C and d15N stable isotopes in organic matrices (sediments, plants, plankton filters, biological tissues)
E11058
HAMBACH, BASTIAN
Isoprime PyroCube Elemental Analyser and Agilent 7890A GC coupled to a GeoVisION+ IRMS
Elemental composition of carbon, nitrogen and sulphur as well as d13C, d15N and d34S stable isotopes in organic matrices (sediments, plants, plankton filters, biological tissues). Also available for elemental composition of oxygen and hydrogen as well as d2H and d18O stable isotopes in organic matrices as well as in liquids
Elemental composition of carbon, nitrogen and sulphur as well as d13C, d15N and d34S stable isotopes in organic matrices (sediments, plants, plankton filters, biological tissues). Also available for elemental composition of oxygen and hydrogen as well as d2H and d18O stable isotopes in organic matrices as well as in liquids
Elemental composition of carbon, nitrogen and sulphur as well as d13C, d15N and d34S stable isotopes in organic matrices (sediments, plants, plankton filters, biological tissues). Also available for elemental composition of oxygen and hydrogen as well as d2H and d18O stable isotopes in organic matrices as well as in liquids
E11059
HAMBACH, BASTIAN
Discovery Differential Scanning Calorimeter (TA instruments)
Discovery DSC with Auto Sampler. Modulated DSC®, (MDSC®), for the most efficient separation of complex thermal events
Discovery DSC with Auto Sampler. Modulated DSC®, (MDSC®), for the most efficient separation of complex thermal events
Discovery DSC with Auto Sampler. Modulated DSC®, (MDSC®), for the most efficient separation of complex thermal events
E11060
COLES, SIMON
DHR-3 Rheometer
DHR-3 Rheometer
DHR-3 Rheometer
DHR-3 Rheometer
E11256
PETERS, IVO
DISCO DAD3430 Semi Automatic Dicing Saw
E11042
GATES, JAMES
Sperm Class Analyzer CASA system
Sperm Class Analyzer CASA system
Sperm Class Analyzer CASA system
Sperm Class Analyzer CASA system
E11257
GRANGE, LAURA
Micromeritics TriStar 3020 Surface Area Analyser
Measurement of surface area of powder samples using using volumetric gas adsorption analysis.
Measurement of surface area of powder samples using using volumetric gas adsorption analysis.
Measurement of surface area of powder samples using using volumetric gas adsorption analysis.
E11041
CLARK, ALISTAIR
DMOptics Yokogawa AQ6370D-10-L1 Optical Spectrum Analyzer
PO60489087 Subproject 514689104
PO60489087 Subproject 514689104
PO60489087 Subproject 514689104
E11046
GATES, JAMES
DMOptics Yokogawa AQ6370D-10-L1 Optical Spectrum Analyzer
PO60486615 Subproject 514689103
PO60486615 Subproject 514689103
PO60486615 Subproject 514689103
E11048
TROPPER, ANNE
Dilas Compact 200/200-808.3LC Diode Laser System
PO60490377 Subproject 50866247
PO60490377 Subproject 50866247
PO60490377 Subproject 50866247
E11050
TROPPER, ANNE
Thermo MAT 253 Dual Inlet Isotope Ratio Mass Spectrometer with Kiel IV carbonate device
Setermination of d13C and d18O stable isotope ratios in carbonates or bulk inorganic materials
Setermination of d13C and d18O stable isotope ratios in carbonates or bulk inorganic materials
Setermination of d13C and d18O stable isotope ratios in carbonates or bulk inorganic materials
E11093
HAMBACH, BASTIAN
Thermo Delta V with GC-IRMS: Gas Chromatograph-Isotope Ratio Mass Spectrometer
E11094
BRAY, PAUL
Thermo TSQ 8000 GC-MS-MS: Gas Chromatograph-Mass Spectrometer with MS/MS capability
E11095
WHITESIDE, JESSICA
Thermo 1310 GC FID GC-FID: Gas Chromatograph with Flame Ionisation Detector
E11096
WHITESIDE, JESSICA
Leica SP8 Confocal Microscope
E11071
PAGE, ANTHONY
LAZERMaster LZM-100 Glass Processing and Splicing System Serial No. 201 (and optional extras)
E11069
GATES, JAMES
Zurich Instruments UHF Lock-In Amplifier
Digital lock-in amplifier covering the frequency range from DC to 600 MHz;
Digital lock-in amplifier covering the frequency range from DC to 600 MHz;
Digital lock-in amplifier covering the frequency range from DC to 600 MHz;
E11075
MACDONALD, KEVIN
LISST-200X Sediment Size Distribution Sensor
E11298
MORGAN, PETER
Hologic Horizon A Advanced Fan Beam DXA - Densitometer
E11303
MAHON, PAMELA
Vertical Furnace
Vertical Furnace
Vertical Furnace
Vertical Furnace
E11274
GATES, JAMES
UPC² SQD2
UPC² SQD2
UPC² SQD2
UPC² SQD2
E11275
LANGLEY, GRAHAM
Refurbished prober S12K with eVUE and thermal refurbished unit
Refurbished prober S12K with eVUE and thermal refurbished unit
Refurbished prober S12K with eVUE and thermal refurbished unit
Refurbished prober S12K with eVUE and thermal refurbished unit
E11381
COOLEY, KATE
Flame Hydrolysis Deposition Chamber - 1 of 2
Flame Hydrolysis Deposition Chamber
Flame Hydrolysis Deposition Chamber
Flame Hydrolysis Deposition Chamber
E11272
GATES, JAMES
Flame Hydrolysis Deposition Chamber - 2 of 2
Flame Hydrolysis Deposition Chamber - 2 of 2
Flame Hydrolysis Deposition Chamber - 2 of 2
Flame Hydrolysis Deposition Chamber - 2 of 2
E11273
GATES, JAMES
BD FACS Aria Fusion
BD FACS Aria Fusion
BD FACS Aria Fusion
BD FACS Aria Fusion
E11277
CHALLIS, RUTH
Flight Jet Rig Assembly
Equipment under construction
Equipment under construction
Equipment under construction
E11279
SELF, RODNEY
QuAAtro 36 System / Autoanalyser
E11285
TYRRELL, LUKE
Thermo Accela HPLC/LTQ Velos MS
High Performance Liquid Chromatography Mass Spectrometer (HPLC-MS). LC-MSn offers Trap-HCD (Higher-Energy Collisional Dissociation) combined with CID (Collision-Induced Dissociation), PQD* (Pulsed-Q Dissociation) and ETD (Electron Transfer Dissociation) to solve the most difficult analytical problems. Key Features:
- Novel wide dynamic range discrete dynode detection system provides up to six orders of linear quantitation
- Unique dual-pressure linear ion trap simultaneously increases scan speed and mass resolution
- Proprietary S-lens ion optics increase ion transmission and shorten trap fill time, improving instrument sensitivity and data acquisition rate
- Generation II ion optics improve robustness and reduces downtime
- Trap-HCD functionality combined with CID, PQD and ETD provides the ultimate in structural information
- Predictive Automatic Gain Control reduces cycle times, yielding improved data acquisition rates.
High Performance Liquid Chromatography Mass Spectrometer (HPLC-MS). LC-MSn offers Trap-HCD (Higher-Energy Collisional Dissociation) combined with CID (Collision-Induced Dissociation), PQD* (Pulsed-Q Dissociation) and ETD (Electron Transfer Dissociation) to solve the most difficult analytical problems. Key Features:
- Novel wide dynamic range discrete dynode detection system provides up to six orders of linear quantitation
- Unique dual-pressure linear ion trap simultaneously increases scan speed and mass resolution
- Proprietary S-lens ion optics increase ion transmission and shorten trap fill time, improving instrument sensitivity and data acquisition rate
- Generation II ion optics improve robustness and reduces downtime
- Trap-HCD functionality combined with CID, PQD and ETD provides the ultimate in structural information
- Predictive Automatic Gain Control reduces cycle times, yielding improved data acquisition rates.
High Performance Liquid Chromatography Mass Spectrometer (HPLC-MS). LC-MSn offers Trap-HCD (Higher-Energy Collisional Dissociation) combined with CID (Collision-Induced Dissociation), PQD* (Pulsed-Q Dissociation) and ETD (Electron Transfer Dissociation) to solve the most difficult analytical problems. Key Features:
- Novel wide dynamic range discrete dynode detection system provides up to six orders of linear quantitation
- Unique dual-pressure linear ion trap simultaneously increases scan speed and mass resolution
- Proprietary S-lens ion optics increase ion transmission and shorten trap fill time, improving instrument sensitivity and data acquisition rate
- Generation II ion optics improve robustness and reduces downtime
- Trap-HCD functionality combined with CID, PQD and ETD provides the ultimate in structural information
- Predictive Automatic Gain Control reduces cycle times, yielding improved data acquisition rates.
E10655
WHITESIDE, JESSICA
4000E Finisar Waveshaper - Programmable Optical Processor
E10394
PETROPOULOS, PERIKLIS
RaDeCC- six channel delayed coincidence counting system
E11311
ANNETT, AMBER
AMT XR81 Direct Mount 3.2K x 2.4K Camera
AMT XR81 Direct Mount 3.2K x 2.4K Camera
AMT XR81 Direct Mount 3.2K x 2.4K Camera
AMT XR81 Direct Mount 3.2K x 2.4K Camera
E11379
PAGE, ANTHONY
Sherwood Scout Aircraft
Sherwood Scout Aircraft w/ Avionics Garmin G3X Suite
Sherwood Scout Aircraft w/ Avionics Garmin G3X Suite
Sherwood Scout Aircraft w/ Avionics Garmin G3X Suite
E11259
SCANLAN, JAMES
BioMark HD (S/N 90400) w/ Juno System (S/N 130058)
BioMark HD (S/N 90400) w/ Juno System (S/N 130058)
BioMark HD (S/N 90400) w/ Juno System (S/N 130058)
BioMark HD (S/N 90400) w/ Juno System (S/N 130058)
E11265
REEVE, PAUL
BIOSTATION IM-Q
E11324
JONES, KEITH
CamScan CS3200 Scanning Electron Microscope + parts
Scanning electron microscope (LaB6 source; 0-50 keV) equipped for VI-NIR spectroscopic analysis and angle-resolved mapping of electron-induced light emission (cf. cathodoluminescence)
Scanning electron microscope (LaB6 source; 0-50 keV) equipped for VI-NIR spectroscopic analysis and angle-resolved mapping of electron-induced light emission (cf. cathodoluminescence)
Scanning electron microscope (LaB6 source; 0-50 keV) equipped for VI-NIR spectroscopic analysis and angle-resolved mapping of electron-induced light emission (cf. cathodoluminescence)
E10514
MACDONALD, KEVIN
Nikon - HMX: 225kV Microfocus Computed Tomography Scanner
This is a custom Nikon XTEK XTH 225 kVp micro-focus CT system equipped with a robotic sample exchanger (~ 150 mm height limit). It is perfect for relatively small specimens (< 300 mm in height) that can be scanned using a 225 kVp X-Ray source. The source can be configured for high resolution or high flux through a range of different anodes; namely a transmission anode (spot ≥ 1 µm, low flux), a standard multi-material reflection anode (spot ≥ 3 µm, 'normal' flux) and a rotating anode (spot ≥ 10µm, x3 -5 flux). A labyrinth at the rear of the system allows routing of cables and pipes that can control and feed in-situ rigs for time-resolved (4D) µ-CT experiments.
This is a custom Nikon XTEK XTH 225 kVp micro-focus CT system equipped with a robotic sample exchanger (~ 150 mm height limit). It is perfect for relatively small specimens (< 300 mm in height) that can be scanned using a 225 kVp X-Ray source. The source can be configured for high resolution or high flux through a range of different anodes; namely a transmission anode (spot ≥ 1 µm, low flux), a standard multi-material reflection anode (spot ≥ 3 µm, 'normal' flux) and a rotating anode (spot ≥ 10µm, x3 -5 flux). A labyrinth at the rear of the system allows routing of cables and pipes that can control and feed in-situ rigs for time-resolved (4D) µ-CT experiments.
This is a custom Nikon XTEK XTH 225 kVp micro-focus CT system equipped with a robotic sample exchanger (~ 150 mm height limit). It is perfect for relatively small specimens (< 300 mm in height) that can be scanned using a 225 kVp X-Ray source. The source can be configured for high resolution or high flux through a range of different anodes; namely a transmission anode (spot ≥ 1 µm, low flux), a standard multi-material reflection anode (spot ≥ 3 µm, 'normal' flux) and a rotating anode (spot ≥ 10µm, x3 -5 flux). A labyrinth at the rear of the system allows routing of cables and pipes that can control and feed in-situ rigs for time-resolved (4D) µ-CT experiments.
E10884
SINCLAIR, IAN
Zeiss - Xradia 510 Versa: High-resolution computed tomography scanner
This scanner uses a two-stage magnification approach to achieve sub-micron spatial resolution at source to object distance much greater than these allowed in conventional XCT systems. Zeiss’s resolution at a distance, RaaDTM, approach combines the geometric magnification of the X-Ray imaging with a smart system of microscope lenses to further magnify the image. The system is fitted with X0.4, X4, X20, and X40 magnification lens mounted on a barrel mount for rapid change over. This means that the operator can achieve submicron resolution (pixel size ≥ 70 nm or spatial resolution ≥ 0.7 µm) at large working distances, allowing for imaging of larger specimens or small specimens in contained in-situ rings. Importantly, the machine is capable of phase-contrast imaging overcoming an imortant limitations of convectional absorption-based CT imaging; i.e. low or complete absence of contrast for low Z materials. The latter is particular useful for biomedical imaging, CFRP and polymer imaging appl
This scanner uses a two-stage magnification approach to achieve sub-micron spatial resolution at source to object distance much greater than these allowed in conventional XCT systems. Zeiss’s resolution at a distance, RaaDTM, approach combines the geometric magnification of the X-Ray imaging with a smart system of microscope lenses to further magnify the image. The system is fitted with X0.4, X4, X20, and X40 magnification lens mounted on a barrel mount for rapid change over. This means that the operator can achieve submicron resolution (pixel size ≥ 70 nm or spatial resolution ≥ 0.7 µm) at large working distances, allowing for imaging of larger specimens or small specimens in contained in-situ rings. Importantly, the machine is capable of phase-contrast imaging overcoming an imortant limitations of convectional absorption-based CT imaging; i.e. low or complete absence of contrast for low Z materials. The latter is particular useful for biomedical imaging, CFRP and polymer imaging appl
This scanner uses a two-stage magnification approach to achieve sub-micron spatial resolution at source to object distance much greater than these allowed in conventional XCT systems. Zeiss’s resolution at a distance, RaaDTM, approach combines the geometric magnification of the X-Ray imaging with a smart system of microscope lenses to further magnify the image. The system is fitted with X0.4, X4, X20, and X40 magnification lens mounted on a barrel mount for rapid change over. This means that the operator can achieve submicron resolution (pixel size ≥ 70 nm or spatial resolution ≥ 0.7 µm) at large working distances, allowing for imaging of larger specimens or small specimens in contained in-situ rings. Importantly, the machine is capable of phase-contrast imaging overcoming an imortant limitations of convectional absorption-based CT imaging; i.e. low or complete absence of contrast for low Z materials. The latter is particular useful for biomedical imaging, CFRP and polymer imaging appl
E10960
SINCLAIR, IAN
Handheld XRF300 and accessories
E11290
MORGAN, PETER
Spinsolve Carbon Benchtop NMR + Software
Spinsolve Carbon Benchtop NMR + Software
Spinsolve Carbon Benchtop NMR + Software
Spinsolve Carbon Benchtop NMR + Software
E11258
LEVITT, MALCOLM
X-Ray Enclosure
X-Ray Enclosure
X-Ray Enclosure
X-Ray Enclosure
E11266
THIBAULT, PIERRE
Zeiss EVO Scanning Electron Microscope
The scanning electron microscope (SEM) is used to examine microscopic topographical or compositional detail of solid specimens. The image is produced by scanning an extremely small focused beam of electrons (adjustable down to a few nm in diameter) across the surface of a specimen in an array of picture points; high-energy electron bombardment of the specimen causes signals to be emitted at each position of the beam. These are collected and their intensities are used to produce images of the specimen by modulating the brightness of equivalent pixels on a computer screen. An SEM has three distinct advantages compared to a light microscope - better resolution, greater depth of field and the ability to carry out X-ray microanalysis. The Zeiss EVO scanning electon microscope (SEM) is able to image the surfaces of a wide variety of non-conducting materials due to its variable pressure (VP) mode.
The scanning electron microscope (SEM) is used to examine microscopic topographical or compositional detail of solid specimens. The image is produced by scanning an extremely small focused beam of electrons (adjustable down to a few nm in diameter) across the surface of a specimen in an array of picture points; high-energy electron bombardment of the specimen causes signals to be emitted at each position of the beam. These are collected and their intensities are used to produce images of the specimen by modulating the brightness of equivalent pixels on a computer screen. An SEM has three distinct advantages compared to a light microscope - better resolution, greater depth of field and the ability to carry out X-ray microanalysis. The Zeiss EVO scanning electon microscope (SEM) is able to image the surfaces of a wide variety of non-conducting materials due to its variable pressure (VP) mode.
The scanning electron microscope (SEM) is used to examine microscopic topographical or compositional detail of solid specimens. The image is produced by scanning an extremely small focused beam of electrons (adjustable down to a few nm in diameter) across the surface of a specimen in an array of picture points; high-energy electron bombardment of the specimen causes signals to be emitted at each position of the beam. These are collected and their intensities are used to produce images of the specimen by modulating the brightness of equivalent pixels on a computer screen. An SEM has three distinct advantages compared to a light microscope - better resolution, greater depth of field and the ability to carry out X-ray microanalysis. The Zeiss EVO scanning electon microscope (SEM) is able to image the surfaces of a wide variety of non-conducting materials due to its variable pressure (VP) mode.
E10472
BODEN, STUART
Nitor 301 Hot Filament Chemical Vapour Deposition (HFCVD)
The Nitor 301 Hot Filament Chemical Vapour Deposition (HFCVD), also known as Hot Wire Chemical Vapour Deposition (HWCVD), is used for deposition of intrinsic and doped amorphous and crystalline silicon films. It uses a proprietary hot filament array on a deposition area of up to 300 x 300 mm.
The Nitor 301 Hot Filament Chemical Vapour Deposition (HFCVD), also known as Hot Wire Chemical Vapour Deposition (HWCVD), is used for deposition of intrinsic and doped amorphous and crystalline silicon films. It uses a proprietary hot filament array on a deposition area of up to 300 x 300 mm.
The Nitor 301 Hot Filament Chemical Vapour Deposition (HFCVD), also known as Hot Wire Chemical Vapour Deposition (HWCVD), is used for deposition of intrinsic and doped amorphous and crystalline silicon films. It uses a proprietary hot filament array on a deposition area of up to 300 x 300 mm.
E10758
BODEN, STUART
Mo rotating anode with Rigaku FR-E+ Ultra High Flux Diffractometer/Rigaku FR-E+ Very High Flux Diffr
Rigaku FR-E+ Ultra High Flux Diffractometer with HyPix detector /Rigaku FR-E+ Very High Flux Diffractometer with CCD detector Data collection is possible between 80-500K
Rigaku FR-E+ Ultra High Flux Diffractometer with HyPix detector /Rigaku FR-E+ Very High Flux Diffractometer with CCD detector Data collection is possible between 80-500K
Rigaku FR-E+ Ultra High Flux Diffractometer with HyPix detector /Rigaku FR-E+ Very High Flux Diffractometer with CCD detector Data collection is possible between 80-500K
E10644
COLES, SIMON
Tuneable Laser Source O-band model TSL-550
Tuneable Laser Source
Model: TLS-550
Serial number: 16110034
Wavelength Band: 1260 – 1360nm
Tuneable Laser Source
Model: TLS-550
Serial number: 16110034
Wavelength Band: 1260 – 1360nm
Tuneable Laser Source
Model: TLS-550
Serial number: 16110034
Wavelength Band: 1260 – 1360nm
E11263
SAHU, JAYANTA
Facilities and Equipment
Facilities and Equipment of the University of Southampton.
University of Southampton
Facilities and Equipment
Facilities and Equipment of the University of Southampton.
University of Southampton
8981