Robert J. Ewart, Michael L. Nastac, Pablo J. Bilbao, Thales Silva, Luís O. Silva, Alexander A. Schekochihin
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Relaxation to universal non-Maxwellian equilibria in a collisionless plasma
Generic equilibria are derived for turbulent relaxing plasmas via an
entropy-maximization procedure that accounts for the short-time conservation of
certain collisionless invariants. The conservation of these collisionless
invariants endows the system with a partial `memory' of its prior conditions,
but is imperfect on long time scales due to the development of a turbulent
cascade to small scales, which breaks the precise conservation of phase volume,
making this memory imprecise. The equilibria are still determined by the
short-time collisionless invariants, but the invariants themselves are driven
to a universal form by the nature of the turbulence. This is numerically
confirmed for the case of beam instabilities in one-dimensional electrostatic
plasmas, where sufficiently strong turbulence appears to cause the distribution
function of particle energies to develop a universal power-law tail, with
exponent -2.
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