Laboratory Study of Nonlinear Saturation of Velocity Shear-driven Instabilities

Erik Tejero; C. Lon Enloe; Bill Amatucci; Chris Crabtree; Guru Ganguli

Laboratory Study of Nonlinear Saturation of Velocity Shear-driven Instabilities

ORAL

Abstract

Space observations, theory, and laboratory experiments have shown that small-scale, localized sheared plasma flows can drive a variety of electrostatic and electromagnetic turbulence over a large frequency range. The Space Physics Simulation Chamber at NRL has been used to study these instabilities from the ion cyclotron to the lower hybrid/whistler regime. Results from recent experiments investigating the nonlinear saturation of these non-local instabilities and the transition to turbulence will be presented.

^*Work supported by the Naval Research Laboratory Base Program

Nov. 17, 2015, 11:50 AM – Nov. 17, 2015, 12:10 PM

Authors

Erik Tejero
- Naval Research Laboratory
- Naval Research Lab
C. Lon Enloe
- Naval Research Lab
- Naval Research Laboratory
Bill Amatucci
- Naval Research Lab
- Naval Research Laboratory
Chris Crabtree
- Naval Research Laboratory
- Naval Research Lab
Guru Ganguli
- Naval Research Laboratory
- U. S. Naval Research Laboratory
- Naval Research Lab