Shock Driven, Discrete Vortices on Oblique Interfaces

A.M. Rasmus; C.A. Di Stefano; F.W. Doss; K.A. Flippo; Elizabeth Merritt; D.W. Schmidt; A.P. Strickland; C.C. Kuranz

Shock Driven, Discrete Vortices on Oblique Interfaces

ORAL

Abstract

A shock incident on an interface between two materials will deposit baroclinic vorticity. This vorticity will typically cause any perturbations on the pre-shock interface to grow. The vorticity distribution along the post-shock interface often determines which process dominates the post-shock evolution. Here, we will show that growth dominated by discrete vortices arises from the interaction of a supported shock with a staircase perturbation. We will present theory, xRAGE simulations, and preliminary experimental results in support of this result.

^*This work conducted under the auspices of the U.S. DOE by LANL under contract 89233218CNA000001. This work is funded by the NNSA-DS and SC-OFES Joint Program in High-Energy-Density Laboratory Plasmas, grant number DE-NA0002956.

Oct. 21, 2019, 11:10 AM – Oct. 21, 2019, 11:30 AM

Authors

A.M. Rasmus
- Los Alamos National Laboratory
C.A. Di Stefano
- Los Alamos National Laboratory
F.W. Doss
- Los Alamos National Laboratory
K.A. Flippo
- Los Alamos National Laboratory
- LANL
- Los Alamos National Lab
Elizabeth Merritt
- Los Alamos National Laboratory
- Los Alamos National Lab
- LANL
D.W. Schmidt
- Los Alamos National Laboratory
A.P. Strickland
- Los Alamos National Laboratory
C.C. Kuranz
- University of Michigan
- University of Michigan - Ann Arbor
- U. of Michigan
- U. of Michigan, USA