Confinement and Transport in a Laboratory Magnetosphere

Ethan Peterson; Mike Clark; C.M. Cooper; Douglass Endrizzi; John Wallace; David Weisberg; Cary Forest

Confinement and Transport in a Laboratory Magnetosphere

POSTER

Abstract

Measurements of density, temperature, diamagnetic currents, and ion flows throughout a dipole magnetosphere immersed in a homogeneous plasma are presented. A 1-D ambipolar diffusion transport model developed for multi-cusp confinement systems is adapted for a dipole magnetosphere geometry and compared to measurements. In addition, differential azimuthal flow is imposed on the magnetosphere through electrically driven flow at the boundary of the machine. Modifications to the transport and confinement due to differential rotation are presented as well.

Authors

Ethan Peterson
- University of Wisconsin - Madison
Mike Clark
- University of Wisconsin - Madison
- University of Wisconsin-Madison
- University of Wisconsin, Madison
- Univ of Wisconsin, Madison
C.M. Cooper
- Lawrence Livermore National Laboratory
- Lawrence Livermore Natl Lab
- ORAU
Douglass Endrizzi
- University of Wisconsin - Madison
- University of Wisconsin-Madison
John Wallace
- University of Wisconsin - Madison
- Univ of Wisconsin, Madison
David Weisberg
- General Atomics
- UW Madison (currently ORAU)
Cary Forest
- University of Wisconsin - Madison
- University of Wisconsin, Madison