AWBS kinetic modeling of electrons with nonlocal Ohms law in plasmas relevant to inertial confinement fusion

• Main Authors: Holec, M, Loiseau, P, Debayle, A, Brodrick, J. P, Del Sorbo, D, Ridgers, C. P, Tikhonchuk, V, Feugeas, J. -L, Nicolai, Ph, Dubroca, B, Kingham, R. J
• Format: Journal Article
• Language: English
• Published: 22.12.2018
• Subjects: Physics - Plasma Physics
• DOI: 10.48550/arxiv.1901.11378

The interaction of lasers with plasmas very often leads to nonlocal transport conditions, where the classical hydrodynamic model fails to describe important microscopic physics related to highly mobile particles. In this study we analyze and further propose a modification of the Albritton- Williams-Bernstein-Swartz collision operator Phys. Rev. Lett 57, 1887 (1986) for the nonlocal electron transport under conditions relevant to ICF. The electron distribution function provided by this modification exhibits some very desirable properties when compared to the full Fokker- Planck operator in the local diffusive regime, and also performs very well when benchmarked against Vlasov-Fokker-Planck and collisional PIC codes in the nonlocal transport regime, where we find that the effect of the electric field via the nonlocal Ohms law is an essential ingredient in order to capture the electron kinetics properly.