Open AccessAnomalous Skin Effect for Anisotropic Electron Velocity Distribution Function
Author(s) -
Igor Kaganovich,
Edward A. Startsev,
Gennady Shvets
Publication year - 2004
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/821688
Subject(s) - plasma , isotropy , electron , skin effect , physics , anisotropy , thermal velocity , perpendicular , atomic physics , electric field , distribution function , boundary (topology) , drift velocity , condensed matter physics , optics , geometry , flow velocity , mechanics , quantum mechanics , mathematics , mathematical analysis , flow (mathematics)
The anomalous skin effect in a plasma with a highly anisotropic electron velocity distribution function (EVDF) is very different from skin effect in a plasma with the isotropic EVDF. An analytical solution was derived for the electric field penetrated into plasma with the EVDF described as a Maxwellian with two temperatures Tx >> Tz, where x is the direction along the plasma boundary and z is the direction perpendicular to the plasma boundary. The skin layer was found to consist of two distinctive regions of width of order nTx/w and nTz/w, where nTx,z/w = (Tx,z/m)1/2 is the thermal electron velocity and w is the incident wave frequency
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