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| Title: |
| The high-redshift star formation rate derived from gamma-ray bursts: possible origin and cosmic reionization |
| Authors: |
| Wang, F. Y. |
| Affiliation: |
| AA(School of Astronomy and Space Science, Nanjing University, 210093, Nanjing, PR China fayinwang@nju.edu.cn;
Department of Physics, The University of Hong Kong, Pokfulam Road, Hong
Kong, PR China; Key Laboratory of Modern Astronomy and Astrophysics
(Nanjing University), Ministry of Education, 210093, Nanjing, PR China) |
| Publication: |
| Astronomy & Astrophysics, Volume 556, id.A90, 7 pp. (A&A Homepage) |
| Publication Date: |
| 08/2013 |
| Origin: |
| EDP Sciences |
| Astronomy Keywords: |
| gamma rays: general, stars: formation, dark ages, reionization, first stars |
| DOI: |
| 10.1051/0004-6361/201321623 |
| Bibliographic Code: |
| 2013A&A...556A..90W |
Abstract
The
collapsar model of long gamma-ray bursts (GRBs) indicates that they
may trace the star formation history, so long GRBs may be a useful tool
for measuring the high-redshift star formation rate (SFR). The
collapsar
model explains GRB formation via the collapse of a rapidly rotating
massive star with M > 30 M
⊙ into a black hole, which
may imply a decrease in SFR at high redshift. However, we find that the
Swift GRBs during 2005 to 2012 are biased when tracing the SFR,
including a factor about (1 + z)
0.5, which agrees with recent
results. After taking this factor, the SFR derived from GRBs does not
show a steep drop up to z ~ 9.4. We consider the GRBs produced by
rapidly rotating metal-poor stars with low masses to explain the
high-redshift GRB rate excess. The chemically homogeneous evolution
scenario (CHES) of rapidly rotating stars with mass higher than 12
M
⊙ is recognized as a promising path towards
collapsars
in connection with long GRBs. Our results indicate that the stars in the
mass range 12 M
⊙ < M < 30 M
⊙ for low
enough
metallicity Z ≤ 0.004 with the GRB efficiency factor
10
-5 can fit the derived SFR with good accuracy. Combining
these two factors, we find that the conversion efficiency from massive
stars to GRBs is enhanced by a factor of 10, which may explain the
excess of the high-redshift GRB rate. We also investigate the cosmic
reionization history using the derived SFR. The GRB-inferred SFR would
be sufficient to maintain cosmic reionization over 6 < z < 10 and
reproduce the observed optical depth of Thomson scattering to the cosmic
microwave background.
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