Hydrogen Double-Shock Equation-of-State and Transport Data

ORAL

Abstract

We present findings of double-shock experiments in H2 and D2 where high-density, second-shock states were directly observed behind weak, transparent first shocks. A resulting shock merger is also observed. We deduce mechanical, thermal, and transport properties of the double-shocked D2 to pressures of 8 Mbar. These high-density states probe the transition of D2 from liquid metallic metal to classical plasma. Preliminary H2 data are also discussed. From these data we explore the off-Hugoniot behavior of D2 and H2 and conclude with a comparison of our findings to recent reshock experiments and models.

*This material is based upon work supported by the Department of Energy National Nuclear Security Administration under Award Number DE-NA0003856 and NSF Physics Frontier Center award PHY-2020249.

Presenters

  • Zaire Sprowal

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

Authors

  • Zaire Sprowal

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

  • Ryan Rygg

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

  • Danae Polsin

    • Laboratory for Laser Energetics
    • University of Rochester

  • Gilbert W Collins

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

  • Margaret F Huff

    • University of Rochester Laboratory for Laser Energetics
    • Lab for Laser Energetics

  • Peter M Celliers

    • Lawrence Livermore Natl Lab

  • Damien G Hicks

    • Swinburne Univ of Tech

  • Linda E Hansen

    • SNL
    • Sandia National Laboratories