Professor Justin Wark

Short Pulse X-Ray Diffraction Studies Of Shocked And Annealed Crystals Using The Janus Research Laser

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 0831 (1988) 243-250

Authors:

RW Lee, MJ Eckart, JD Kilkenny, RR Whitlock, A Hauer, JS Wark

TRANSIENT COMPRESSION PRODUCED IN A CRYSTAL BY LASER IRRADIATION.

(1987) 116-117

Authors:

RR Whitlock, JS Wark, A Hauer, JE Swain, PJ Solone

Abstract:

Multikilobar transient strains were produced in single-crystal silicon by laser irradiation. Variations of the lattice spacing with time and in depth were observed by pulsed X-ray diffraction. Targets were (111) silicon wafers, overcoated with 1000-angstrom aluminum to provide a short laser absorption depth, and further overcoated with a 25- mu m plastic layer. The temporal development of pressure pulse was observed by measuring the change in interplanar spacing of the (111) silicon planes, using the technique of pulsed X-ray Bragg diffraction. Peak lattice compressions (strains) were directly measured and lattice stress inferred as a function of irradiance and time. The compression was followed from its initial rise on through its crest and subsequent fall to values near, but above, solid density. Linear compressions of up to 4% were measured. Crystallinity was preserved throughout this process.

POLYMER SHELL IMPLOSIONS.

(1987) 52

Authors:

MC Richardson, P Audebert, J Delettrez, R Epstein, PA Jaanimagi, R Kremens, FJ Marshall, PW McKenty, RL McCrory, S Skupsky, W Seka, JM Soures, CP Verdon, JS Wark

Abstract:

The authors present a detailed investigation of ablatively driven gas-filled polymer shell targets irradiated by the 351-nm 2-kJ 4-TW Omega 24-beam laser system. The implosion of these targets was diagnosed with an extensive array of plasma, X-ray, and nuclear diagnostics. Detailed characterization of the multibeam laser output provided an estimate of the illumination nonuniformities imposed on target. Targets were fabricated from polystyrene or polyvinyl alcohol shells of 200-400- mu m diameter and 5-10- mu m wall thicknesses. Additional polymer layers and ultrathin metallic layers were added to reduce the initial aspect ratio and provide shine-through inhibition and weak X-ray signatures of ablation front penetration, respectively. A detailed comparison of the symmetry and performance of these target implosions has been made with the predictions of the one-dimensional (1-D) and 2-D hydrodynamic codes LILAC and ORCHID, respectively.

Shock launching in silicon studied with use of pulsed x-ray diffraction

Physical Review B 35 (1987) 17

Imploding Cylindrical Plasmas As X-Ray Laser Media

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 0664 (1986) 270-276

Authors:

MC Richardson, B Yaakobi, R Epstein, JS Wark, JM Soures