Professor Justin Wark

Ultrafast x-ray diffraction using a streak-camera detector in averaging mode

OPTICS LETTERS 22:13 (1997) 1012-1014

Authors:

J Larsson, Z Chang, E Judd, PJ Schuck, RW Falcone, PA Heimann, HA Padmore, HC Kapteyn, PH Bucksbaum, MM Murnane, RW Lee, A Machacek, JS Wark, X Liu, B Shan

Time-resolved X-ray diffraction

Contemporary Physics Taylor & Francis 37:3 (1996) 205-218

Generation of coherent XUV radiation with sub-picosecond KrF lasers

AIP Conference Proceedings AIP Publishing 369 (1996) 559-564

Authors:

AA Offenberger, SG Preston, M Zepf, CG Smith, WJ Blyth, MH Key, JS Wark, A Djaoui, D Neely

Spectroscopy of compressed high energy density matter

Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics 53:6 (1996) 6396-6402

Authors:

NC Woolsey, A Asfaw, B Hammel, C Keane, CA Back, A Calisti, C Mossé, R Stamm, B Talin, JS Wark, RW Lee, L Klein

Abstract:

A theoretical and experimental time-resolved spectroscopic investigation of indirectly driven microsphere implosions is described. The plasma dynamics is studied for several fill gases with a trace amount of argon. Through an analysis of the line profile of Ar XVII 1[Formula Presented]–1s3p[Formula Presented]P, with a line center position at [Formula Presented]=3684 eV, the evolution of the plasma density and temperature as a function of fill gas is examined. The theoretical calculations are performed with a fast computer code, which has been previously benchmarked through the analysis of specific complex ionic spectra in hot dense plasmas. The experimental aspect of the work utilizes the Lawrence Livermore National Laboratory Nova 10 beam laser facility to indirectly drive the implosion of a gas filled plastic microsphere contained in a gold Holhraum target. The dynamical density measurement is derived from a streak camera linewidth measurement and a comparison with the computed profile. Calculations demonstrate that in certain cases there can be a substantial ion dynamics effect on the line shape. The frequency fluctuation model is used to compute the effect on the line profile and a comparison with the experimental spectra provides evidence that ion dynamics may be affecting the line shape. This study provides a method for obtaining an improved understanding of the basic processes dominating the underlying plasma physics of matter compressed to a state of high energy density. © 1996 The American Physical Society.

Characterisation of a saturated single frequency Ne-like Ge XUV laser on the J=0->1 transition at 19.6 nm

INST PHYS CONF SER (1996) 56-58

Authors:

J Zhang, PJ Warwick, E Wolfrum, MH Key, C Danson, A Demir, S Healy, D Kalantar, NS Kim, CLS Lewis, J Lin, A MacPhee, D Neely, J Nilsen, GJ Pert, R Smith, GJ Tallents, JS Wark

Abstract:

We report on measurements of a saturated single frequency Ne-like Ge XUV laser on the J = 0->1 transition at 19.6 nm from a refraction compensating double target driven by 150 J of energy from 75 ps Nd-laser pulses. The 19.6 nm line completely dominated the laser output. The output energy was measured to be 0.9 mJ, corresponding to a conversion efficiency of 6x10(-6).