Professor Steven Rose

A near-nucleus correction for the finite-temperature Thomas-Fermi model

Journal of Physics B Atomic Molecular and Optical Physics IOP Publishing 24:5 (1991) 873

Authors:

S Pfalzner, SJ Rose

Simple method for creating pulse shortening in x-ray lasers

Applied Physics Letters AIP Publishing 57:26 (1990) 2748-2749

Authors:

SJ Rose, AM Rogoyski, N Tragin

KrF pumped Raman lasers as X-ray laser drivers

Institute of Physics Conference Series (1990) 239-242

Authors:

MH Key, E Harvey, GJ Hirst, CJ Hooker, J Jacoby, R Kodama, J Lister, P Norreys, P Rodgers, SJ Rose, IN Ross, MJ Shaw, G Tallents, N Tragin

Abstract:

Recent progress in developing KrF laser pumped Raman lasers has shown their potential as X-ray laser drivers. The combination of short wavelength (268 nm) with low beam divergence and high beam intensity gives the possibility of very high focused intensity in very narrow line foci. An 8 cm × 8 cm beam combining Raman amplifier in the Sprite system has generated 0.4 TW, 12 ps pulses with 20 μrad beam divergence. A 10 μm wide line focus has been produced and plasmas from a NaF target have been studied at irradiances up to 3 × 1014 W cm-2. Numerical simulations suggest that the Sprite system should be able to produce high recombination gain in F IX at 8.1 nm and that larger scale KrF pumped Raman lasers which are being considered for future UK and European facilities would be ideal drivers for Mg XII at 4.5 nm.

Experimental observations of L - and M -shell spectra emitted from plasmas produced by the irradiation of solid targets with single 3.5 ps, KrF laser pulses

Applied Physics Letters AIP Publishing 57:20 (1990) 2086-2088

Authors:

J Edwards, V Barrow, O Willi, SJ Rose

Symmetry in inertial confinement fusion implosion

Plasma Physics and Controlled Fusion IOP Publishing 32:11 (1990) 1029