On Relativistic Plasma/Non-vacuum Interaction

Zephaniah Hernandez; Ecklin Crenshaw; Samina Masood

On Relativistic Plasma/Non-vacuum Interaction

ORAL

Abstract

There exists a limitation on plasma-based propulsion systems which restricts their usage to non-atmospheric environments. We theoretically determine the local effects of high temperatures and densities of relativistic plasmas through the generation of high thermal gradient, exhaust plumes. The interaction between the relativistic plasma exhaust and atmospheric regions of varying pressures in close proximity thereto are examined in an attempt to ascertain stability conditions and their associated stable regions.

March 9, 2018, 12:15 PM – March 9, 2018, 12:27 PM

Presenters

Zephaniah Hernandez
- Univ of Houston - Clear Lake

Authors

Zephaniah Hernandez
- Univ of Houston - Clear Lake
Ecklin Crenshaw
- Univ of Houston - Clear Lake
Samina Masood
- Univ of Houston - Clear Lake
- Physics, Univ of Houston - Clear Lake
- Physical and Applied Sciences, Univ of Houston - Clear Lake
- Department of Physical and Applied Sciences, University of Houston - Clear Lake
- University of Houston - Clear Lake