Viscous damping of perturbed shocks

POSTER

Abstract

In order to understand the fluid behavior of materials in high-energy density conditions, we seek methods to determine the viscosity of a sample. One method entails tracking the decay of a perturbation in a shock front. We characterize the viscous damping of an ablatively-generated shock by simulating laser-driven shocks through epoxy with multiphysics code xRAGE and measuring the amplitude decay and oscillation. With simulated velocity interferometry and pyrometry, we constrain experimental parameters to best measure viscosity.

*This work was supported by the US DOE and NNSA joint HEDLP program under grant DE-NA0004134, with partial support from grants NSF PHY-2020249, DE-SC0020229 and DE-NA0003914.

Presenters

  • Na'im Kalantar

    • University of Rochester

Authors

  • Na'im Kalantar

    • University of Rochester

  • Nitish Acharya

    • University of Rochester

  • Brian Michael Haines

    • Los Alamos National Laboratory
    • Los Alamos National Laboratory (LANL)

  • Hussein Aluie

    • University of Rochester

  • Jessica K Shang

    • University of Rochester