期刊
ASTROPHYSICAL JOURNAL LETTERS
卷 783, 期 1, 页码 -出版社
IOP PUBLISHING LTD
DOI: 10.1088/2041-8205/783/1/L21
关键词
acceleration of particles; galaxies: jets; gamma-ray burst: general; magnetic reconnection; pulsars: general; radiation mechanisms: non-thermal
资金
- Einstein grant [PF1-120090]
- NASA [NNX12AD01G, NNX13AO80G]
- Simons Foundation [267233]
- XSEDE [TG-AST120010]
- Direct For Computer & Info Scie & Enginr
- Division Of Computer and Network Systems [1229573] Funding Source: National Science Foundation
- NASA [467377, NNX12AD01G, 52864, NNX13AO80G] Funding Source: Federal RePORTER
In magnetized astrophysical outflows, the dissipation of field energy into particle energy via magnetic reconnection is often invoked to explain the observed non-thermal signatures. By means of two-and three-dimensional particle-in-cell simulations, we investigate anti-parallel reconnection in magnetically dominated electron-positron plasmas. Our simulations extend to unprecedentedly long temporal and spatial scales, so we can capture the asymptotic state of the system beyond the initial transients, and without any artificial limitation by the boundary conditions. At late times, the reconnection layer is organized into a chain of large magnetic islands connected by thin X-lines. The plasmoid instability further fragments each X-line into a series of smaller islands, separated by X-points. At the X-points, the particles become unmagnetized and they get accelerated along the reconnection electric field. We provide definitive evidence that the late-time particle spectrum integrated over the whole reconnection region is a power law whose slope is harder than -2 for magnetizations sigma greater than or similar to 10. Efficient particle acceleration to non-thermal energies is a generic by-product of the long-term evolution of relativistic reconnection in both two and three dimensions. In three dimensions, the drift-kink mode corrugates the reconnection layer at early times, but the long-term evolution is controlled by the plasmoid instability which facilitates efficient particle acceleration, analogous to the two-dimensional physics. Our findings have important implications for the generation of hard photon spectra in pulsar winds and relativistic astrophysical jets.
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