期刊
ADVANCES IN SPACE RESEARCH
卷 41, 期 3, 页码 481-490出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.asr.2007.07.001
关键词
magnetic fields; reconnection; stars; pulsars; winds; outflow; gamma-rays; bursts; particles; non-thermal; acceleration
We address the problem of interacting relativistic current sheets in self-consistent kinetic plasma simulations within the framework of the Particle-In-Cell model. The interaction is enforced in head-on collisions of up to 10 current sheets at relativistic bulk speeds. The simulations are motivated by the general problem of Poynting flux dissipation in 'striped wind' configurations presumably governing the relativistic outflows pervasive in pulsar winds and gamma-ray bursts. We identify the generation of non-thermal particles and formation of a stable power-law shape in the particle energy distributions f(gamma) d gamma proportional to gamma(-s) d gamma. In 1D, a spectral index s similar to 2 is observed and attributed to a stochastic Fermi-type acceleration mechanism. In 213, the generic index of s similar to 3-4 is retained as in previous simulations of individual current sheets. Whereas in 2D the high energy cut-off is constrained by the limited dissipation of magnetic energy, in I D the process converts the bulk motion of current sheets towards directed particle momentum of an exclusive class of non-thermal particles. (C) 2007 COSPAR. Published by Elsevier Ltd. All rights reserved.
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