Hybrid Simulation of Kelvin-Helmholtz Instabilities in the Presence of Radially Varying Flow
POSTER
Abstract
This paper summarizes the hybrid simulation results of plasma flow
curvature effects on the growth of the Kelvin-Helmholtz instability
(KHI). It is found that KHI growth rate is higher when the shear flow
has a negative initial curvature than linearly sheared initial flow. The
growth rate is lower when the initial shear flow has a positive curvature.
The growth rate under positive curvature decreases with increasing
positive curvature.
curvature effects on the growth of the Kelvin-Helmholtz instability
(KHI). It is found that KHI growth rate is higher when the shear flow
has a negative initial curvature than linearly sheared initial flow. The
growth rate is lower when the initial shear flow has a positive curvature.
The growth rate under positive curvature decreases with increasing
positive curvature.
*This study was supported under DOE grant DE-SC0016397
Presenters
-
S Sen
- National Institute of Aerospace, College of William Mary, VA; and Bowie State University, MD