Oxford Centre for High Energy Density Science (OxCHEDS)

Observation of gain at 54.2 Å on balmer-alpha transition of hydrogenic sodium

Applied Physics B Springer Nature 50:4 (1990) 247-256

Authors:

Y Kato, E Miura, T Tachi, H Shiraga, H Nishimura, H Daido, M Yamanaka, T Jitsuno, M Takagi, PR Herman, H Takabe, S Nakai, C Yamanaka, MH Key, GJ Tallents, SJ Rose, PT Rumsby

Soft X-ray amplification in aluminium recombining plasma produced from a thin coated fibre

Journal of Physics B Atomic Molecular and Optical Physics IOP Publishing 23:1 (1990) 147

Authors:

A Carillon, MJ Edwards, M Grande, MJC Henshaw, P Jaegle, G Jamelot, MH Key, GP Kiehn, A Klisnick, CLS Lewis, D O'Neill, GJ Pert, SA Ramsden, CME Regan, SJ Rose, R Smith, O Willi

COLLISIONALLY EXCITED X-RAY LASER SCHEMES - PROGRESS AT RUTHERFORD APPLETON LABORATORY

INSTITUTE OF PHYSICS CONFERENCE SERIES IOP PUBLISHING LTD (1990) 231-238

Authors:

CLS LEWIS, D NEELY, J UHOMOIBHI, DM ONEILL, SA RAMSDEN, GJ TALLENTS, YA HADITHI, MH KEY, SJ ROSE, GJ PERT

EXPERIMENTAL STUDIES OF THE MNF PHOTORESONANT EXCITATION SOFT-XRL SCHEME

INSTITUTE OF PHYSICS CONFERENCE SERIES IOP PUBLISHING LTD (1990) 201-204

Authors:

DM ONEILL, CLS LEWIS, D NEELY, SA RAMSDEN, MH KEY, SJ ROSE

High power laser development and experimental applications to x-ray lasers, and short pulse energy transport

Laser And particle Beams 8:1-2 (1990) 19-25

Authors:

MH Key, M Grande, C Hooker, S Rose, I Ross, M Shaw, G Tallents

Abstract:

University research in the UK with high power lasers is carried out at the SERC’s Central Laser Facility with a multiterawatt neodymium glass laser, VULCAN, and a developmental KrF laser, SPRITE. These systems are briefly described together with the design of a new KrF laser to supersede VULCAN. The new laser design, SUPERSPRITE, is based on optical and raman multiplexing which is being developed with the present SPRITE system. The Specification of SUPERSPRITE is For 3.5 kj in 1 ns and a peak power of 300 TW in short pulses. The new technology is seen as highly cost effective in relation to neodymium glass lasers. A Resumé of the development of XUV lasers in the UK in collaboration with laboratories overseas is given. The work is based on laser action through recombination in highly ionized ions and recent progress includes collaborative experiments on the GEKKO XII facility in japan which have demonstrated laser action at the shortest wavelength to date at 45 Å in Mg XII. The physics of energy transport in short pulses is fundamental to the extrapolation of recombination lasers to shorter wavelengths and is being studied from a more basic standpoint using both the VULCAN and SPRITE facilities. Some details of this work are given. © 1990, Cambridge University Press. All rights reserved.