1. Experimental observation of ultra-slow electron-lattice coupling in highly non-equilibrium graphite
- Author
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Tammy Ma, Paul Neumayer, Gianluca Gregori, B.J.B. Crowley, C. D. Murphy, S. Richardson, S. Le Pape, P. Davis, S. H. Glenzer, Thomas G. White, Dirk O. Gericke, D Hochhaus, L. K. Pattison, J.W.O. Harris, and Jan Vorberger
- Subjects
Physics ,Opacity ,Phase space ,Quantum mechanics ,State of matter ,Electron ,Plasma ,Warm dense matter ,Inertial confinement fusion ,Potential energy ,Computational physics - Abstract
Summary form only given. Extreme states of matter are routinely created in the laboratory by the interaction of a high intensity laser with a solid. Such states are created in order to study scenarios relevant to astrophysical phenomena, inertial confinement fusion (ICF), equation of state (EOS) and opacity models. Solid density material with pressures above a megabar and temperatures of thousands of Kelvin is known as warm dense matter (WDM) and lies in the region of the phase space diagram between traditional solid state and plasma physics, Since expansion techniques are no longer applicable and neither the kinetic nor the potential energy can be treated perturbatively studying WDM represents a major challenge experimentally, theoretically and computationally.
- Published
- 2012
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