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Title: Currents between tethered electrodes in a magnetized laboratory plasma

Journal Article · · Journal of Geophysical Research; (United States)
;  [1]
  1. Univ. of California, Los Angeles (United States)
+ Show Author Affiliations

Laboratory experiments on important plasma physics issues of electrodynamic tethers are performed. These include current propagation, formation of wave wings, limits of current collection, nonlinear effects and instabilities, charging phenomena, and characteristics of transmission lines in plasmas. The current system is established with a small electron-emitting hot cathode tethered to an electron-collecting anode, both movable across the magnetic field and energized by potential differences up to V {approx} 100 kT{sub e}/e. The total current density in space and time is obtained from complete measurements of the perturbed magnetic field. J = {gradient} {times} B(r,t)/{mu}{sub 0}. The fast spacecraft motion is reproduced in the laboratory by moving the tethered electrodes in small increments, applying delayed current pulses, and reconstructing the net field by a linear superposition of locally emitted wavelets. With this technique, the small-amplitude dc current pattern is shown to form whistler wings at each electrode instead of the generall accepted Alfven wings. For the beam electrode, the whistler wing separates from the field-aligned beam which carries no net current. Large-amplitude return currents to a stationary anode generate current-driven microinstabilities, parallel electric fields, ion depletions, current disruptions, and time-varying electrode charging. At appropriately high potentials and neutral densities, excess neutrals are ionized near the anode. The anode sheath emits high-frequency electron transit-time oscillations at the sheath-plasma resonance. The beam generates Langmuir turbulence, ion sound turbulence, electron heating, space charge fields, and Hall currents. An insulated, perfectly conducting transmission line embedded in the plasma becomes lossy due to excitation of whistler waves and magnetic field diffusion effects.

OSTI ID:
5133053
Journal Information:
Journal of Geophysical Research; (United States), Vol. 95:A5; ISSN 0148-0227
Country of Publication:
United States
Language:
English

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Related Subjects

71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
SPACE VEHICLES
ELECTRODYNAMICS
ALFVEN WAVES
BEAM INJECTION
CHARGE COLLECTION
CURRENT DENSITY
ELECTRIC CONDUCTIVITY
ELECTRIC CURRENTS
ELECTRIC FIELDS
ELECTRODES
ELECTROMAGNETIC RADIATION
ELECTRON BEAMS
EXPERIMENTAL DATA
HEATING
ION DENSITY
IONOSPHERE
LABORATORIES
PLASMA MICROINSTABILITIES
SATELLITES
TURBULENCE
USES
BEAMS
CURRENTS
DATA
EARTH ATMOSPHERE
ELECTRICAL PROPERTIES
HYDROMAGNETIC WAVES
INFORMATION
INSTABILITY
LEPTON BEAMS
NUMERICAL DATA
PARTICLE BEAMS
PHYSICAL PROPERTIES
PLANETARY IONOSPHERES
PLASMA INSTABILITY
RADIATIONS
VEHICLES
640201* - Atmospheric Physics- Auroral
Ionospheric
& Magetospheric Phenomena