Abstract
A space charge sheath is found to be formed whenever a high-velocity magnetized plasma stream penetrates a gas cloud. The sheath is always located at the head of the plasma stream, and its thickness is very small compared to the length of the plasma stream. Soon after the sheath is formed it quickly slows down to the Alfvén critical velocity. The plasma behind the sheath continues to move at higher velocity until the whole plasma stream is retarded to the critical velocity. In the interaction at gas density ≈1019 m−3 the sheaths are observed to be accompanied by a single loop of current with current density of ≈105 Å m−2. Maximum potential in the sheath ranges between 50 and 200 V.
Presently available models for the sheath may explain the initiation of the sheath formation. Physical processes like heating of the electrons and ionization of the gas cloud which come into play at a later stage of the interaction are not included in these models. These processes considerably alter the potential structure in the sheath region. A schematic model of the observed sheath is presented here.
Experiments reveal a threshold value of the magnetic field for plasma retardation to occur. This seems to correspond to the threshold condition for excitation of the modified two-stream instability which can lead to the electron heating. The observed current are found sufficient to account for the plasma retardation at a gas density of ≈1017 m−3.
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Venkataramani, N., Mattoo, S.K. Space charge sheath in plasma-neutral gas interaction. Astrophys Space Sci 121, 83–103 (1986). https://doi.org/10.1007/BF00648264
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DOI: https://doi.org/10.1007/BF00648264