Title :
Magnetized potential structures in a laboratory plasma
Author :
Intrator, T. ; Menard, J.
Abstract :
Summary form only given. The double layers that are thought to accelerate the auroral electron streams exist in the Earth´s plasma-filled magnetized flux tubes. Not much is known about these structures, e.g., whether they are tilted with respect to the magnetic field, how many spatial dimensions are relevant, how long is their lifetime, their relation to wave turbulence, etc. In order to study these questions, a magnetized plasma device has been constructed with two very efficient RF loop antenna plasma sources that generate a radially and axially uniform plasma and allow for controllable boundary conditions. The scaling to spacelike parameters is good for a laboratory device with a collisionless plasma with a radius of approximately 20 cm and a length of 70 cm. The plasma density can be varied from n e~106-1011 cm-3, electron temperature Te~2-5 eV (Te≫Ti), with a background magnetic field B0<200 G and a fill pressure of 7-10×10-5 torr. The plasma radius is many gyro radii across. The Debye lengths are much smaller than the plasma dimensions
Keywords :
aurora; ionosphere; plasma devices; plasma production; plasma sheaths; 2 to 5 eV; 20 cm; 70 cm; Debye lengths; RF loop antenna plasma sources; auroral electron streams; axially uniform plasma; controllable boundary conditions; double layers; electron temperature; fill pressure; gyro radii; laboratory plasma; length; lifetime; magnetised potential structure; magnetized plasma device; plasma radius; plasma-filled magnetized flux tubes; spacelike parameters; spatial dimensions; tilting; wave turbulence;
Conference_Titel :
Plasma Science, 1990. IEEE Conference Record - Abstracts., 1990 IEEE International Conference on
Conference_Location :
Oakland, CA, USA
DOI :
10.1109/PLASMA.1990.110612
