Resolving ultrafast heating of dense cryogenic hydrogen

U. Zastrau; P. Sperling; M. Harmand; A. Becker; T. Bornath; R. Bredow; S. Dziarzhytski; T. Fennel; L. B. Fletcher; E. Förster; S. Göde; G. Gregori; V. Hilbert; D. Hochhaus; B. Holst; T. Laarmann; H. J. Lee; T. Ma; J. P. Mithen; R. Mitzner; C. D. Murphy; M. Nakatsutsumi; P. Neumayer; A. Przystawik; S. Roling; M. Schulz; B. Siemer; S. Skruszewicz; J. Tiggesbäumker; S. Toleikis; T. Tschentscher; T. White; M. Wöstmann; H. Zacharias; T. Döppner; S. H. Glenzer; R. Redmer

Journal Article

Resolving ultrafast heating of dense cryogenic hydrogen

Physical Review Letters (2014) 112(10)

DOI: 10.1103/PhysRevLett.112.105002

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Abstract

We report on the dynamics of ultrafast heating in cryogenic hydrogen initiated by a ≲300 fs, 92 eV free electron laser x-ray burst. The rise of the x-ray scattering amplitude from a second x-ray pulse probes the transition from dense cryogenic molecular hydrogen to a nearly uncorrelated plasmalike structure, indicating an electron-ion equilibration time of ∼0.9 ps. The rise time agrees with radiation hydrodynamics simulations based on a conductivity model for partially ionized plasma that is validated by two-temperature density-functional theory. © 2014 American Physical Society.

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Zastrau, U., Sperling, P., Harmand, M., Becker, A., Bornath, T., Bredow, R., … Redmer, R. (2014). Resolving ultrafast heating of dense cryogenic hydrogen. Physical Review Letters, 112(10). https://doi.org/10.1103/PhysRevLett.112.105002

Resolving ultrafast heating of dense cryogenic hydrogen

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