Resolving ultrafast heating of dense cryogenic hydrogen

Resolving ultrafast heating of dense cryogenic hydrogen

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...

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Veröffentlicht in:Physical review letters 2014-03, Vol.112 (10), p.105002-105002
Hauptverfasser: Zastrau, U, Sperling, P, Harmand, M, Becker, A, Bornath, T, Bredow, R, Dziarzhytski, S, Fennel, T, Fletcher, L B, Förster, E, Göde, S, Gregori, G, Hilbert, V, Hochhaus, D, Holst, B, Laarmann, T, Lee, H J, Ma, T, Mithen, J P, Mitzner, R, Murphy, C D, Nakatsutsumi, M, Neumayer, P, Przystawik, A, Roling, S, Schulz, M, Siemer, B, Skruszewicz, S, Tiggesbäumker, J, Toleikis, S, Tschentscher, T, White, T, Wöstmann, M, Zacharias, H, Döppner, T, Glenzer, S H, Redmer, R
Format: Artikel
Sprache:eng
Schlagworte:
Balancing
Computational fluid dynamics
Fluid flow
Free electron lasers
Heating
Hydrogen
Scattering amplitude
X-rays
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Beschreibung
Zusammenfassung: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.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.112.105002