Oxford Centre for High Energy Density Science (OxCHEDS)

Inelastic x-ray scattering from shocked liquid deuterium

Physical Review Letters 109:26 (2012)

Authors:

SP Regan, K Falk, G Gregori, PB Radha, SX Hu, TR Boehly, BJB Crowley, SH Glenzer, OL Landen, DO Gericke, T Döppner, DD Meyerhofer, CD Murphy, TC Sangster, J Vorberger

Abstract:

The Fermi-degenerate plasma conditions created in liquid deuterium by a laser-ablation - driven shock wave were probed with noncollective, spectrally resolved, inelastic x-ray Thomson scattering employing Cl Lyα line emission at 2.96 keV. These first x-ray Thomson scattering measurements of the microscopic properties of shocked deuterium show an inferred spatially averaged electron temperature of 8±5 eV, an electron density of 2.2(±0.5)×1023 cm-3, and an ionization of 0.8 (-0.25, +0.15). Two-dimensional hydrodynamic simulations using equation-of-state models suited for the extreme parameters occurring in inertial confinement fusion research and planetary interiors are consistent with the experimental results. © 2012 American Physical Society.

Turbulent Plasma in the Lab

Physics American Physical Society (APS) 5 (2012) 141

Authors:

Gianluca Gregori, Brian Reville

Numerical Modeling of the Sensitivity of X-Ray Driven Implosions to Low-Mode Flux Asymmetries

(2012)

Authors:

RHH Scott, DS Clark, DK Bradley, DA Callahan, MJ Edwards, SW Haan, OS Jones, BK Spears, MM Marinak, RPJ Town, PA Norreys, LJ Suter

Resonant Kα spectroscopy of solid-density aluminum plasmas

Physical Review Letters 109:24 (2012)

Authors:

BI Cho, K Engelhorn, SM Vinko, HK Chung, O Ciricosta, DS Rackstraw, RW Falcone, CRD Brown, T Burian, J Chalupský, C Graves, V Hájková, A Higginbotham, L Juha, J Krzywinski, HJ Lee, M Messersmidt, C Murphy, Y Ping, N Rohringer, A Scherz, W Schlotter, S Toleikis, JJ Turner, L Vysin, T Wang, B Wu, U Zastrau, D Zhu, RW Lee, B Nagler, JS Wark, PA Heimann

Abstract:

The x-ray intensities made available by x-ray free electron lasers (FEL) open up new x-ray matter interaction channels not accessible with previous sources. We report here on the resonant generation of Kα emission, that is to say the production of copious Kα radiation by tuning the x-ray FEL pulse to photon energies below that of the K edge of a solid aluminum sample. The sequential absorption of multiple photons in the same atom during the 80 fs pulse, with photons creating L-shell holes and then one resonantly exciting a K-shell electron into one of these holes, opens up a channel for the Kα production, as well as the absorption of further photons. We demonstrate rich spectra of such channels, and investigate the emission produced by tuning the FEL energy to the K-L transitions of those highly charged ions that have transition energies below the K edge of the cold material. The spectra are sensitive to x-ray intensity dependent opacity effects, with ions containing L-shell holes readily reabsorbing the Kα radiation. © 2012 American Physical Society.

Revealing multiphoton resonant ionization in solid density plasmas with an x-ray free electron laser

2012 Conference on Lasers and Electro-Optics, CLEO 2012 (2012)

Authors:

BI Cho, K Engelhorn, SM Vinko, JS Wark, RW Falcone, PA Heimann

Abstract:

Interaction of intense x-ray and solid density Al plasma is studied via K-shell emission spectroscopy. A high fluence, high-intensity x-ray pulse from an x-ray free-electron laser unveils multiphoton ionization pathway and drives hidden resonances. © 2012 OSA.