Hot electron scaling from PIC simulations of two-plasmon decay instability

ORAL

Abstract

A series of 2D in-plane Particle-In-Cell simulations has been carried out to study the scaling of hot-electron fraction from two-plasmon decay (TPD) instability at conditions relevant to OMEGA-scale experiments. Scaling laws obtained give good prediction of the simulations. Using this scaling and laser-plasma conditions from LILAC simulations, we calculate whole-pulse hot-electron fractions and convert them into hard x-ray signals for validation and prediction. Results show that the simulation scaling ’predicts’ a much higher hot-electron fraction than the experiments. Plans to address missing physics in these simulations, including laser speckles, laser pump depletion under 0.21nc, and cogeneration from TPD and Stimulated Raman Side Scattering, will also be discussed.

*This material is based upon work supported by the Department of Energy National Nuclear Security Administration under Award Number DE-NA0003856, the University of Rochester, and the New York State Energy Research and Development Authority. We thank the UCLA-IST OSIRIS Consortium for the use of OSIRIS.

Presenters

  • Shihui Cao

    • University of Rochester

Authors

  • Shihui Cao

    • University of Rochester

  • Dhrumir P Patel

    • University of Rochester
    • Laboratory for Laser Energetics, U. of Rochester

  • Riccardo Betti

    • University of Rochester
    • Laboratory for Laser Energetics, University of Rochester
    • Laboratory for Laser Energetics, U. of Rochester

  • Chuang Ren

    • University of Rochester
    • Laboratory for Laser Energetics, U. of Rochester

  • Michael J Rosenberg

    • University of Rochester
    • Laboratory for Laser Energetics, U. of Rochester
    • Laboratory for Laser Energetics, University of Rochester