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UNITED KINGDOM - RAL
CLRC CENTRAL LASER FACILITY
RUTHERFORD APPLETON LABORATORY
Chilton, Didcot, Oxfordshire OX11 0QX
Telephone: +44 1235 445582
Telefax: +44 1235 445888
E-mail: h.hutchinson@rl.ac.uk
URL: http://www.clf.rl.ac.uk
CENTRAL LASER FACILITY
| Director: | Hutchinson, Henry (Prof., h.hutchinson@rl.ac.uk ) |
| Associate Director: | Edwards, Chris (c.b.edwards@rl.ac.uk ) |
Finance and Administration
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Brown, Alison
Elliot, Maggie |
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Horton, Katharine
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Tubb, Ruth
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Vulcan
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Danson, Colin (Group Leader)
Collier, John Hawkes, Steve |
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Hernandez-Gomez, Cristina
Kidd, Andy Pepler, Dave |
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Winstone, Trevor
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Target Area Group
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Neely, David (Group Leader)
Clarke, Rob |
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Foster, Peta
Heathcote, Robert |
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Notley, Margaret
Ziener, Christian |
Physics
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Norreys, Peter (Group Leader)
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Habara, Hideaki
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Lancaster, Kate
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Lasers for Science Facility
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Parker, Tony (Group Leader)
Botchway, Stan Clark, Ian |
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Hirst, Graeme
Matousek, Pavel Shaikh, Waseem |
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Tavender, Sue
Towrie, Mike Ward, Andy |
Astra
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Hutchinson, Henry (Group Leader)
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Divall, Edwin
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Langley, Andrew
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Laser Research and Development
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Ross, Ian (Group Leader)
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Hooker, Chris
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Engineering and Technology
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Wyborn, Brian (Group Leader)
Hatton, Peter |
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Reason, Chris
Rodkiss, Dave |
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Wyatt, Ray
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Vulcan is a world leading, ultrahigh power Nd:glass laser providing versatile, multi-beam interaction facilities, using a number of different geometries. Chirped Pulse Amplification (CPA) gives access to the ultra-high intensity regime with irradiance on target up to 1020 W.cm-2, at powers up to 100 TW in a subpicosecond pulse. In addition to the short pulse beamline, Vulcan provides a total of 2 kJ at 1 μm in six beams, with additional synchronised beams for probing, diagnostics and X-ray backlighting.
Astra is a Titanium-Sapphire laser allowing the generation of pulses as short as 50 fs at 800 nm. The facility operates with two target areas: one which is designed for the investigation of ionisation and dissociation of molecules and the other, operating at higher energies (0.5J) uses CPA to generate intensities to target of 1019 W.cm-2.
The high power lasers are used for a wide range of research in plasma physics, high intensity interaction phenomena, the production and application of intense pulsed X-ray sources and X-ray lasers. A significant fraction of the plasma physics research consists of basic studies related to ICF.
The Lasers for Science Facility operates versatile laser systems for scientific research across a wide range of disciplines. A laser-plasma X-ray source provides 1 W of soft X-ray radiation at 1 nm wavelength at 100 Hz for semiconductor X-ray lithography and radiation biology. The PIRATE, Picosecond Infrared Absorption and Transient Excitation, facility uses time-resolved infrared spectroscopy to study changes in structures in molecules on picosecond time scales. The Laser Microscopy Laboratory uses a femtosecond laser with a confocal microscope (120 ps, 3D imaging system) for time resolved confocal microscopy, optical tweezers, single photon counting, multiphoton processes. A novel dual-OPO system provides independently tuneable, synchronised pulses of 100 fs to 1 ps duration in the 480-730 nm spectral range at 1 kHz. Mixing of the two outputs gives continuously tuneable output between 220 nm and 2,200 nm with single pulse energy in excess of 0.5μJ. The nanosecond laboratory uses time resolved resonance Raman spectroscopy, flash photolysis and singlet oxygen detection for chemical studies.
The laser systems are available not only to UK scientists but also to European scientists in the CEC scheme for access to Large Scale Facilities. There are a large number of informal collaborations where UK and EU user teams carry out joint experiments with colleagues from other international laboratories.
IAEA 2001