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.

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