Spectrally resolved X-ray scatter from laser-shock-driven plasmas

D. Riley; F.Y. Khattak; E. Garcia Saiz; G. Gregori; S. Bandyopadhyay; M. Notley; D. Neely; D. Chambers; A. Moore; A. Comley

doi:10.1017/S0263034607000572

Abstract

We report spectrally resolved X-ray scattering data from shock compressed foils illustrating the feasibility of X-ray Thomson scattering experiment on a sub-kilo joule laser system. Sandwich targets consisting of CH/Al/CH were shock compressed using ∼1 ns laser pulses. Separate 270 ps laser pulses were used to generate an intense source of Ti-He-α (1s2-1s2p1P) radiation which was used as a probing source of 4.75 keV photons. The spectrum of scattered photons was recorded at a scattering angle of 82° with a CCD fitted spectrometer using a PET crystal in von-Hamos geometry. Although spectral resolution was used to separate the scatter from any background, the resolution was limited by source broadening. The relative level of scatter at different times in the sample history was measured by varying the delay between the shock driving beams and the back-lighter beams. We have compared the scatter spectra with simulations based on two different models of the L-shell bound-free contribution.

Crossref Citations

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Sawada, H. Regan, S. P. Meyerhofer, D. D. Igumenshchev, I. V. Goncharov, V. N. Boehly, T. R. Epstein, R. Sangster, T. C. Smalyuk, V. A. Yaakobi, B. Gregori, G. Glenzer, S. H. and Landen, O. L. 2007. Diagnosing direct-drive, shock-heated, and compressed plastic planar foils with noncollective spectrally resolved x-ray scattering. Physics of Plasmas, Vol. 14, Issue. 12,

Borisenko, N.G. Bugrov, A.E. Burdonskiy, I.N. Fasakhov, I.K. Gavrilov, V.V. Goltsov, A.Yu. Gromov, A.I. Khalenkov, A.M. Kovalskii, N.G. Merkuliev, Yu.A. Petryakov, V.M. Putilin, M.V. Yankovskii, G.M. and Zhuzhukalo, E.V. 2008. Physical processes in laser interaction with porous low-density materials. Laser and Particle Beams, Vol. 26, Issue. 4, p. 537.

Hu, G.-Y. Zhang, J.-Y. Zheng, J. Shen, B.-F. Liu, S.-Y. Yang, J.-M. Ding, Y.-K. Hu, X. Huang, Y.-X. Du, H.-B. Yi, R.-Q. Lei, A.-L. and Xu, Z.-Z. 2008. Angular distribution and conversion of multi-keV L-shell X-ray sources produced from nanosecond laser irradiated thick-foil targets. Laser and Particle Beams, Vol. 26, Issue. 4, p. 661.

Dickinson, B. Seidler, G. T. Webb, Z. W. Bradley, J. A. Nagle, K. P. Heald, S. M. Gordon, R. A. and Chou, I. M. 2008. A short working distance multiple crystal x-ray spectrometer. Review of Scientific Instruments, Vol. 79, Issue. 12,

Glenzer, Siegfried H. and Redmer, Ronald 2009. X-ray Thomson scattering in high energy density plasmas. Reviews of Modern Physics, Vol. 81, Issue. 4, p. 1625.

Kugland, N. L. Gregori, G. Bandyopadhyay, S. Brenner, C. M. Brown, C. R. D. Constantin, C. Glenzer, S. H. Khattak, F. Y. Kritcher, A. L. Niemann, C. Otten, A. Pasley, J. Pelka, A. Roth, M. Spindloe, C. and Riley, D. 2009. Evolution of elastic x-ray scattering in laser-shocked warm dense lithium. Physical Review E, Vol. 80, Issue. 6,

Fortmann, C. Bornath, T. Redmer, R. Reinholz, H. Röpke, G. Schwarz, V. and Thiele, R. 2009. X-ray Thomson scattering cross-section in strongly correlated plasmas. Laser and Particle Beams, Vol. 27, Issue. 2, p. 311.

Lee, H. J. Neumayer, P. Castor, J. Döppner, T. Falcone, R. W. Fortmann, C. Hammel, B. A. Kritcher, A. L. Landen, O. L. Lee, R. W. Meyerhofer, D. D. Munro, D. H. Redmer, R. Regan, S. P. Weber, S. and Glenzer, S. H. 2009. X-Ray Thomson-Scattering Measurements of Density and Temperature in Shock-Compressed Beryllium. Physical Review Letters, Vol. 102, Issue. 11,

Liu, Jiansheng Xia, Changquan Liu, Li Li, Ruxin and Xu, Zhizhan 2009. Nonlinear Thomson backscattering of intense laser pulses by electrons trapped in plasma-vacuum boundary. Laser and Particle Beams, Vol. 27, Issue. 3, p. 365.

Gericke, D. O. Vorberger, J. Wünsch, K. and Gregori, G. 2010. Screening of ionic cores in partially ionized plasmas within linear response. Physical Review E, Vol. 81, Issue. 6,

Mattern, B. A. Seidler, G. T. Haave, M. Pacold, J. I. Gordon, R. A. Planillo, J. Quintana, J. and Rusthoven, B. 2012. A plastic miniature x-ray emission spectrometer based on the cylindrical von Hamos geometry. Review of Scientific Instruments, Vol. 83, Issue. 2,

Zastrau, U. Burian, T. Chalupsky, J. Döppner, T. Dzelzainis, T.W.J. Fäustlin, R.R. Fortmann, C. Galtier, E. Glenzer, S.H. Gregori, G. Juha, L. Lee, H.J. Lee, R.W. Lewis, C.L.S. Medvedev, N. Nagler, B. Nelson, A.J. Riley, D. Rosmej, F.B. Toleikis, S. Tschentscher, T. Uschmann, I. Vinko, S.M. Wark, J.S. Whitcher, T. and Förster, E. 2012. XUV spectroscopic characterization of warm dense aluminum plasmas generated by the free-electron-laser FLASH. Laser and Particle Beams, Vol. 30, Issue. 1, p. 45.

Mattern, Brian A. and Seidler, Gerald T. 2013. Theoretical treatments of the bound-free contribution and experimental best practice in X-ray Thomson scattering from warm dense matter. Physics of Plasmas, Vol. 20, Issue. 2,

Li, K. Borm, B. Hug, F. Khaghani, D. Löher, B. Savran, D. Tahir, N. A. and Neumayer, P. 2014. Developments toward hard X-ray radiography on heavy-ion heated dense plasmas. Laser and Particle Beams, Vol. 32, Issue. 4, p. 631.

Ao, T. Harding, E.C. Bailey, J.E. Lemke, R.W. Desjarlais, M.P. Hansen, S.B. Smith, I.C. Geissel, M. Maurer, A. Reneker, J. Romero, D. Sinars, D.B. Rochau, G.A. and Benage, J.F. 2016. Demonstration of space-resolved x-ray Thomson scattering capability for warm dense matter experiments on the Z accelerator. High Energy Density Physics, Vol. 18, Issue. , p. 26.

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Spectrally resolved X-ray scatter from laser-shock-driven plasmas

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Spectrally resolved X-ray scatter from laser-shock-driven plasmas

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