Synchrotron spectra of GRB prompt emission and pulsar wind nebulae. (arXiv:1912.00026v1 [astro-ph.HE])
<a href="http://arxiv.org/find/astro-ph/1/au:+Xu_S/0/1/0/all/0/1">Siyao Xu</a>

Particle acceleration is a fundamental process in many high-energy
astrophysical environments and determines the spectral features of their
synchrotron emission. We have studied the adiabatic stochastic acceleration
(ASA) of electrons arising from the basic dynamics of magnetohydrodynamic (MHD)
turbulence and found that the ASA acts to efficiently harden the injected
electron energy spectrum. The dominance of the ASA at low energies and the
dominance of synchrotron cooling at high energies result in a broken power-law
shape of both electron energy spectrum and photon synchrotron spectrum.
Furthermore, we have applied the ASA to studying the synchrotron spectra of the
prompt emission of gamma-ray bursts (GRBs) and pulsar wind nebulae (PWNe). The
good agreement between our theories and observations confirms that the
stochastic particle acceleration is indispensable in explaining their
synchrotron emission.

Particle acceleration is a fundamental process in many high-energy
astrophysical environments and determines the spectral features of their
synchrotron emission. We have studied the adiabatic stochastic acceleration
(ASA) of electrons arising from the basic dynamics of magnetohydrodynamic (MHD)
turbulence and found that the ASA acts to efficiently harden the injected
electron energy spectrum. The dominance of the ASA at low energies and the
dominance of synchrotron cooling at high energies result in a broken power-law
shape of both electron energy spectrum and photon synchrotron spectrum.
Furthermore, we have applied the ASA to studying the synchrotron spectra of the
prompt emission of gamma-ray bursts (GRBs) and pulsar wind nebulae (PWNe). The
good agreement between our theories and observations confirms that the
stochastic particle acceleration is indispensable in explaining their
synchrotron emission.

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