Open AccessSome Thoughts on the Role of non-LTE Physics in ICF
Author(s) -
Jeff Colvin
Publication year - 2016
Language(s) - English
Resource type - Reports
DOI - 10.2172/1241967
Subject(s) - plasma , atomic physics , laser , ion , electron temperature , electron , radiation , thermal , shell (structure) , physics , warm dense matter , materials science , nuclear physics , thermodynamics , optics , quantum mechanics , composite material
An effort to develop sub-critical-density high-Z metal-doped and pure metal foams as laser-driven x-ray sources is described. The main idea is that the laser beams preferentially heat the electrons, and if the plasma is sufficiently low density so that the heating rate is greater than the equilibration rate via electron-ion collisions, then the electron temperature in the plasma is much greater than the ion temperature as long as the laser is on. In such a situation the plasma is not in local thermal equilibrium (LTE), it heats supersonically and volumetrically, and the conversion efficiency of laser beam energy to multi-keV L-shell and K-shell radiation is much higher than what it would be in LTE plasma.
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