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Statistical properties of fast radio bursts elucidate their origins:magnetars are favored over gamma-ray bursts
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作者 xiang-han cui Cheng-Min Zhang +11 位作者 Shuang-Qiang Wang Jian-Wei Zhang Di Li Bo Peng Wei-Wei Zhu Richard Strom Na Wang Qingdong Wu Chang-Qing Ye De-Hua Wang Yi-Yan Yang Zhen-Qi Diao 《Research in Astronomy and Astrophysics》 SCIE CAS CSCD 2021年第8期285-292,共8页
Fast radio bursts(FRBs) are extremely strong radio flares lasting several milliseconds,most of which come from unidentified objects at a cosmological distance.They can be apparently repeating or not.In this paper,we a... Fast radio bursts(FRBs) are extremely strong radio flares lasting several milliseconds,most of which come from unidentified objects at a cosmological distance.They can be apparently repeating or not.In this paper,we analyzed 18 repeaters and 12 non-repeating FRBs observed in the frequency bands of 400–800 MHz from Canadian Hydrogen Intensity Mapping Experiment(CHIME).We investigated the distributions of FRB isotropic-equivalent radio luminosity,considering the K correction.Statistically,the luminosity distribution can be better fitted by Gaussian form than by power-law.Based on the above results,together with the observed FRB event rate,pulse duration,and radio luminosity,FRB origin models are evaluated and constrained such that the gamma-ray bursts(GRBs) may be excluded for the non-repeaters while magnetars or neutron stars(NSs) emitting the supergiant pulses are preferred for the repeaters.We also found the necessity of a small FRB emission beaming solid angle(about 0.1 sr) from magnetars that should be considered,and/or the FRB association with soft gamma-ray repeaters(SGRs) may lie at a low probability of about 10%.Finally,we discussed the uncertainty of FRB luminosity caused by the estimation of the distance that is inferred by the simple relation between the redshift and dispersion measure(DM). 展开更多
关键词 transients:fast radio bursts methods:statistical stars:magnetars
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