Benchmark of nonlocal transport models against Vlasov-Fokker-Planck codes in situations of immediate relevance to ICF

Dario Del Sorbo; Jonathan P. Brodrick; Martin P. Read; Milan Holec; Arnaud Debayle; Pascal Loiseau; Robert J. Kingham; Philippe Nicolai; Jean-Luc Feugeas; Vladimir T. Tikhonchuk; Christopher P. Ridgers

Benchmark of nonlocal transport models against Vlasov-Fokker-Planck codes in situations of immediate relevance to ICF

ORAL

Abstract

Hydrodynamics simulations relevant to inertial confinement fusion require a detailed description of energy transport, in particular by electrons. This may be nonlocal if, as is commonly the case, the plasma is not in local thermodynamic equilibrium (i.e. if the electron mean free path is long compared to the temperature scale-length). In this case, a kinetic model of electron thermal transport is required. Some of the most successful approaches to nonlocal transport (SNB [1] \& M1 [2] models) are systematically compared [3] against Vlasov-Foker-Planck \& Particle-in-Cell codes, extending benchmarking beyond the 1D unmagnetized case and studying situations of immediate relevance to ICF. [1] Schurtz et al., Phys. Plasmas, 7 (10) 2000. [2] Del Sorbo et al., Phys. Plasmas, 22 (8) 2015. [3] Brodrick et al., Phys. Plasmas, arXiv preprint arXiv:1706.04153 (2017).

Oct. 24, 2017, 9:42 AM – Oct. 24, 2017, 9:54 AM

Authors

Dario Del Sorbo
- University of York
Jonathan P. Brodrick
- University of York
Martin P. Read
- University of York
Milan Holec
- CeLIA- Univ. Bordeaux, CEA, CNRS
Arnaud Debayle
- CEA
Pascal Loiseau
- CEA
Robert J. Kingham
- Imperial College
Philippe Nicolai
- CeLIA- Univ. Bordeaux, CEA, CNRS
Jean-Luc Feugeas
- CeLIA- Univ. Bordeaux, CEA, CNRS
Vladimir T. Tikhonchuk
- CeLIA- Univ. Bordeaux, CEA, CNRS
Christopher P. Ridgers
- University of York