Oxford Centre for High Energy Density Science (OxCHEDS)

OBSERVATION OF VACUUM ULTRAVIOLET-LASER OSCILLATION IN NITRIC-OXIDE

APPLIED OPTICS 32:12 (1993) 2062-2065

Authors:

AM HAXELL, SM HOOKER, CE WEBB

SOLID-STATE VUV LASERS

(1993) 740-741

Authors:

SM HOOKER, JS CASHMORE, CE WEBB

Influence of cavity configuration on the pulse energy of a high-pressure molecular fluorine laser

Applied Physics B Photophysics and Laser Chemistry 55:1 (1992) 54-59

Authors:

SM Hooker, AM Haxell, CE Webb

Abstract:

We report an investigation of a high-pressure molecular fluorine laser operating at 158 nm. Several cavity configurations were studied, including one employing a roof prism as the high reflector. A maximum VUV pulse energy of 237 mJ, corresponding to a specific output of 3.3 J/1 was obtained when the laser was operated as a double-ended device. With single-ended operation the largest output energy was 176 mJ at a specific output of 2.5 J/1. © 1992 Springer-Verlag.

Calculation of the time-dependent excitation and ionization in a laser-produced plasma

Journal of Physics B Atomic Molecular and Optical Physics IOP Publishing 25:11 (1992) 2745

Authors:

A Djaoui, SJ Rose

Time-resolved measurements of the angular distribution of lasing at 23.6 nm in Ne-like germanium

Optics Communications 90:1-3 (1992) 95-98

Authors:

R Kodama, D Neely, L Dwivedi, MH Key, J Krishnan, CLS Lewis, D O'Neill, P Norreys, GJ Pert, SA Ramsden, GJ Tallents, J Uhomoibhi, J Zhang

Abstract:

The time dependence of the angular distribution of soft X-ray lasing at 23.6 nm in Ne-like germanium has been measured using a streak camera. Slabs of germanium have been irradiated over ≈ 22 mm length × 100 μm width with three line focussed beams of the SERC Rutherford Appleton Laboratory VULCAN laser at 1.06 μm wavelength. The laser beam sweeps in time towards the target surface plane and the divergence broadens with time. The change of the peak intensity pointing and the broadening of the profile with time are consistent with expectations of the time dependence of refraction and divergence due to density gradients in the plasma. © 1992.