Modeling of Laser Heated Gases Including MHD

POSTER

Abstract

This presentation expands upon a general session talk for the MIF audience. Magnetic field effects in laser heated gases are examined in two and three dimensions utilizing the HYDRA code. HYDRA features a full 3D MHD package including anisotropic thermal conduction, as well as the Nernst/Ettingshausen and Righi-Leduc terms. Results of 2D and 3D calculations are presented at the Z-Beamlet (2-4 kJ) and the NIF (single quad) scale (> 20 kJ). A key signature of magnetization during preheat, is higher electron temperature due to restriction of thermal conduction. With Bz the fuel is magnetized as it is heated, then quickly cools as a blast wave develops, limiting thermal conduction effects. Both 2D and 3D simulations show the potential for whole beam self-focusing and steering from thermal effects, that could lead to laser induced mix. General implications for MagLIF are discussed.

*Sandia National Laboratories is a multi-mission laboratory managed and operated by National Technology & Engineering Solutions of Sandia, LLC, a wholly owned subsidiary of Honeywell International, Inc., for the U.S. Department of Energy’s National Nuclear Security Administration under contract DE-NA0003525.

Presenters

  • Matthew Robert Weis

    • Sandia Natl Labs

Authors

  • Matthew Robert Weis

    • Sandia Natl Labs

  • Matthias Geissel

    • Sandia Natl Labs

  • Michael E Glinsky

    • Sandia Natl Labs

  • Adam Harvey-Thompson

    • Sandia Natl Labs

  • Christopher A. Jennings

    • Sandia Natl Labs
    • Sandia National Laboratories

  • Kyle J Peterson

    • Sandia Natl Labs
    • Sandia National Laboratories

  • Joseph M Koning

    • Lawrence Livermore Natl Lab
    • Lawrence Livermore National Laboratory

  • Michael M Marinak

    • Lawrence Livermore Natl Lab
    • Lawrence Livermore National Laboratory