Atomic Modeling of Photoionization Fronts in Nitrogen Gas

ORAL

Abstract

Photoionization fronts play a dominant role in many astrophysical situations, but remain difficult to achieve in a laboratory experiment. Recent papers have suggested that photoionization fronts can be generated in nitrogen gas held at ten atmospheres of pressure and is irradiated by a source with a radiation temperature of TR ∼ 100 eV. We present a suite of one-dimensional numerical simulations using the Helios multi- material radiation hydrodynamics code. We present the results of varying the atomic kinetics and radiative transfer on the formation of a photoionization front and the results of a suite of models that vary the nitrogen pressure and peak radiation temperature.

*R.P.D and W.J.G were supported by the U.S. Department of Energy, through the NNSA-DS and SC-OFES Joint Program in High-Energy Density Laboratory Plasmas, grant number DE-NA0002956, and by the Lawrence Livermore National Laboratory under subcontract B614207.

Presenters

  • William J Gray

    • Univ of Michigan - Ann Arbor

Authors

  • William J Gray

    • Univ of Michigan - Ann Arbor

  • Paul A Keiter

    • Univ of Michigan - Ann Arbor

  • Heath Joseph LeFevre

    • Univ of Michigan - Ann Arbor

  • Cody R Patterson

    • Univ of Michigan - Ann Arbor

  • Joshua S Davis

    • Univ of Michigan - Ann Arbor
    • Naval Surface Warfare Center

  • Bartholomeus Van der Holst

    • Univ of Michigan - Ann Arbor

  • Ken Powell

    • Univ of Michigan - Ann Arbor

  • R. Paul Drake

    • Univ of Michigan - Ann Arbor
    • University of Michigan, Ann Arbor, MI, 48109