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The Critical Role of Collisionless Plasma Energization on the Structure of Relativistic Magnetic Reconnection

During magnetically dominated relativistic reconnection, inflowing plasma depletes the initial relativistic pressure at the x-line and collisionless plasma heating inside the diffusion region is insufficient to overcome this loss. The resulting pressure drop causes a collapse at the x-line, essentially a localization mechanism of the diffusion region necessary for fast reconnection. The extension of this low-pressure region further explains the bursty nature of anti-parallel reconnection because a once opened outflow exhaust can also collapse, which repeatedly triggers secondary tearing islands. However, a stable single x-line reconnection can be achieved when an external guide field exists, since the reconnecting magnetic field component rotates out of the reconnection plane at outflows, providing additional magnetic pressure to sustain the opened exhausts.

preprint2019arXivOpen access
Yi-Hsin LiuShan-Chang LinMichael HesseFan GuoXiaocan LiHaocheng ZhangSarah Peery
physics.space-phphysics.plasm-phastro-ph.HEastro-ph.SR
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Yi-Hsin LiuShan-Chang LinMichael HesseFan GuoXiaocan LiHaocheng ZhangSarah Peery

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