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Title: Hard Synchrotron Spectra from Magnetically Dominated Plasma Turbulence

Journal Article · · The Astrophysical Journal. Letters (Online)
ORCiD logo [1];  [1];  [1]
  1. Columbia Univ., New York, NY (United States)
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Synchrotron emission from astrophysical nonthermal sources usually assumes that the emitting particles are isotropic. By means of large-scale two- and three-dimensional particle-in-cell simulations, we demonstrate that the dissipation of magnetically dominated ($${\sigma }_{0}\gg 1$$) turbulence in pair plasmas leads to strongly anisotropic particle distributions. At Lorentz factors $$\sim {\sigma }_{0}{\gamma }_{\mathrm{th}0}$$ (here, $${\gamma }_{\mathrm{th}0}$$ is the initial Lorentz factor), the particle velocity is preferentially aligned with the local magnetic field; instead, the highest energy particles are preferentially oriented in the plane perpendicular to the field. This energy-dependent anisotropy leads to a synchrotron spectral flux $$\nu {F}_{\nu }\propto {\nu }^{s}$$ that is much harder than for isotropic particles. Remarkably, for $${\sigma }_{0}\gg 1$$ we find that the angle-integrated spectral slope in the slow cooling regime is $$s\sim 0.5-0.7$$ for a wide range of turbulence fluctuations, $$0.25\lesssim \delta {B}_{\mathrm{rms}0}^{2}/{B}_{0}^{2}\lesssim 4$$, despite significant variations in the power-law energy spectrum of nonthermal particles. This is because weaker turbulence levels imprint a stronger degree of anisotropy, thereby counteracting the effect of the steeper particle spectrum. The synchrotron spectral slope may be even harder, $$s\gtrsim 0.7$$, if the observer is in the plane perpendicular to the mean magnetic field. Our results are independent of domain size and dimensionality. Further, our findings may help explain the origin of hard synchrotron spectra of astrophysical nonthermal sources, most notably the radio spectrum of pulsar wind nebulae.

Research Organization:
Columbia Univ., New York, NY (United States)
Sponsoring Organization:
USDOE Office of Science (SC); National Aeronautics and Space Administration (NASA); National Science Foundation (NSF)
Grant/Contract Number:
SC0016542
OSTI ID:
1803041
Journal Information:
The Astrophysical Journal. Letters (Online), Vol. 895, Issue 2; ISSN 2041-8213
Publisher:
IOP PublishingCopyright Statement
Country of Publication:
United States
Language:
English

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Related Subjects

70 PLASMA PHYSICS AND FUSION TECHNOLOGY
Astronomy & astrophysics
High energy astrophysics
Plasma astrophysics
Particle astrophysics
Plasma physics
Non-thermal radiation sources
Pulsars