Journal
ASTROPHYSICAL JOURNAL
Volume 698, Issue 1, Pages 445-450Publisher
IOP PUBLISHING LTD
DOI: 10.1088/0004-637X/698/1/445
Keywords
cosmic rays; plasmas; shock waves; supernova remnants
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Funding
- JSPS Research Fellowships
- Alexander von Humboldt foundation
- CFCA
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In supernova remnants, the nonlinear amplification of magnetic fields upstream of collisionless shocks is essential for the acceleration of cosmic rays to the energy of the knee at 10(15.5) eV. A nonresonant instability driven by the cosmic ray current is thought to be responsible for this effect. We perform two-dimensional, particle-in-cell simulations of this instability. We observe an initial growth of circularly polarized nonpropagating magnetic waves as predicted in linear theory. It is demonstrated that in some cases the magnetic energy density in the growing waves can grow to at least 10 times its initial value. We find no evidence of competing modes, nor of significant modification by thermal effects. At late times, we observe saturation of the instability in the simulation, but the mechanism responsible is an artifact of the periodic boundary conditions and has no counterpart in the supernova-shock scenario.
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