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Observation of collisionless plasma heating by strong shock waves
Authors:M. Keilhacker  M. Kornherr  K. -H. Steuer
Affiliation:1. Institut für Plasmaphysik, Garching bei München
Abstract:The heating of a plasma by collisionless shock waves is investigated by measuring the variation of magnetic field (with magnetic probes), density and electron temperature (from Thomson scattering of laser light) in the shock waves. The compression waves are produced in a tube of 14 cm diameter by the fast rising magnetic field (12 kG in 0.5Μsec) of a theta pinch. For shocks with Mach numbers between 2 and 3 propagating into a hydrogen or deuterium plasma with a localΒ of about 1 (Β=ratio of particle pressure to magnetic pressure) the measured jump in density and magnetic field across the front is 2 to 4, and the electron temperature increases in the front from 3 to 50 eV with a further rise to between 100 and 250 eV in the piston region. Only about 20% of the measured electron heating can be explained by adiabatic heating and resistive heating based on binary collisions, indicating a high turbulent plasma resistance. Both the observed electron heating and the width of the shock front, which is about 0.6 ·c/Ω p, can be accounted for using an effective collision frequency close to the ion plasma frequencyΩ p. The ion heating in the almost stationary shock fronts can be inferred indirectly from the steady state conservation relations. For shock waves with Mach numbersM<M crit it seems to be consistent with an adiabatic heating process, whereas forM>M crit the calculated ion temperatures exceed those one would except for a merely adiabatic heating.
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