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| Title: |
| Application of Jitter Radiation: Gamma-Ray Burst Prompt Polarization |
| Authors: |
| Mao, Jirong; Wang, Jiancheng |
| Affiliation: |
| AA(Astrophysical
Big Bang Lab, RIKEN, Saitama 351-0198, Japan ; Yunnan Observatory,
Chinese Academy of Sciences, 650011 Kunming, Yunnan Province, China ;
Key Laboratory for the Structure and Evolution of Celestial Objects,
Chinese Academy of Sciences, 650011 Kunming, China; jirong.mao@riken.jp),
AB(Yunnan Observatory, Chinese Academy of Sciences, 650011 Kunming,
Yunnan Province, China ; Key Laboratory for the Structure and Evolution
of Celestial Objects, Chinese Academy of Sciences, 650011 Kunming,
China) |
| Publication: |
| The Astrophysical Journal, Volume 776, Issue 1, article id. 17, 9 pp. (2013). (ApJ Homepage) |
| Publication Date: |
| 10/2013 |
| Origin: |
| IOP |
| Astronomy Keywords: |
| gamma-ray burst: general, radiation mechanisms: non-thermal, shock waves, turbulence |
| DOI: |
| 10.1088/0004-637X/776/1/17 |
| Bibliographic Code: |
| 2013ApJ...776...17M |
Abstract
A high degree of polarization of gamma-ray burst (GRB) prompt emission
has been confirmed in recent years. In this paper, we apply jitter
radiation to study the polarization feature of GRB prompt emission. In
our framework, relativistic electrons are accelerated by turbulent
acceleration. Random and small-scale magnetic fields are generated by
turbulence. We further determine that the polarization property of GRB
prompt emission is governed by the configuration of the random and
small-scale magnetic fields. A two-dimensional compressed slab, which
contains a stochastic magnetic field, is applied in our model. If the
jitter condition is satisfied, the electron deflection angle in the
magnetic field is very small and the electron trajectory can be treated
as a straight line. A high degree of polarization can be achieved when
the angle between the line of sight and the slab plane is small.
Moreover, micro-emitters with mini-jet structures are considered to be
within a bulk GRB jet. The
jet "off-axis" effect is intensely sensitive
to the observed polarization degree. We discuss the depolarization
effect on GRB prompt emission and afterglow. We also speculate that the
rapid variability of GRB
prompt polarization may be correlated with the
stochastic variability of the turbulent dynamo or the magnetic
reconnection of plasmas.
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