* Astronomy

Members Login
Username 
 
Password 
    Remember Me  
Post Info TOPIC: GRB 121027A


L

Posts: 131433
Date:
RE: GRB 121027A
Permalink  
 


Title: GRB 121027A: long-lasting, energetic X-ray flares and clues to radiation mechanism and progenitor star
Authors: Fang-kun Peng (GXU), You-Dong Hu (GXU), Shao-Qiang Xi (GXU), Xiang-Gao Wang (GXU), Rui-Jing Lu (GXU), En-Wei Liang (GXU and NAOC), Bing Zhang (UNLV)

GRB 121027A is un-usual with its extremely long-lasting, energetic X-ray flares. The total energy release in X-ray flares is about one order of magnitude higher than prompt gamma-rays, making it special from most long GRBs. We show that while the prompt gamma-ray emission satisfies the empirical E_{iso}-E_{p} relation of typical long GRBs, the X-ray flares, whose spectra can be fit with a cutoff-power-law model with well-constrained E_p, significantly deviate from such a relation. Nonetheless, a time-resolved spectral analysis of X-ray flares suggest that the X-ray emission is consistent with the L_{iso}-E_{p} relation of long GRBs. We constrain the minimum Lorentz factor of the X-ray flares to be ~14, which is consistent with the Gamma-L_{iso} relation. Our results imply that prompt gamma-ray emission and late X-ray flares share the similar radiation mechanism, but originate from the outflows with different Lorentz factors. We search for similar GRBs from the Swift GRB archives, and find that the z=6.29 GRB 050904 is a carbon copy of GRB 121027A. The long-lasting, energetic X-ray flares in these GRBs demand significant accretion at late times, which point towards a large-radius progenitor star.

Read more (208kb, PDF)



__________________


L

Posts: 131433
Date:
Permalink  
 

Title: Giant X-ray Bump in GRB 121027A: Evidence for Fall-back Disk Accretion
Authors: Xue-Feng Wu, Shu-Jin Hou, Wei-Hua Lei

The most interesting discovery in GRB 121027A is the giant X-ray bump detected by Swift/XRT. The X-ray afterglow re-brightens sharply at ~ 1000 s since the trigger by more than two orders of magnitude in less than 200 s. This X-ray bump lasts for more than 10 ks. It is quite different with typical X-ray flares. In this paper we propose a fallback accretion model to interpret this X-ray bump within the context of collapse of a massive star for long duration gamma-ray bursts. The required fallback radius ~ 3.5e10 cm and mass ~ 2.6 solar mass imply that a significant part of the helium envelope should be survived through the mass loss during the last stage of the massive progenitor of GRB 121027A.

Read more (190kb, PDF)



__________________
Page 1 of 1  sorted by
 
Quick Reply

Please log in to post quick replies.



Create your own FREE Forum
Report Abuse
Powered by ActiveBoard