2010ApJ...717..140M

Query : 2010ApJ...717..140M

2010ApJ...717..140M - Astrophys. J., 717, 140-146 (2010/July-1)

A theoretical investigation of gamma-ray burst host galaxies.

MAO J.

Abstract (from CDS):

Long-duration gamma-ray bursts (LGRBs) are believed to be linked with star formation. We adopt a galactic evolution model, in which the star formation process inside the virialized dark halo at a given redshift can be achieved. In this paper, gamma-ray burst (GRB) host galaxies are assumed to be star-forming galaxies within small dark halos. The star formation rates (SFRs) in the host galaxies of LGRBs at different redshifts have been derived from our model with a galactic evolutionary time at about a few times 10⁷ yr, and a dark halo mass of about 5x10¹¹ M_☉. The related stellar masses, luminosities, and metallicities of these hosts are estimated as well. We further calculate the X-ray and optical absorption of GRB afterglow emission. From our model calculation, at higher redshift, the SFR of a host galaxy is larger, and the absorption in the X-ray and optical bands of a GRB afterglow is stronger, when the dust and metal components are locally released, surrounding the GRB environment. These model predictions are compared with Swift and other observational data. At lower redshift z < 1, as the merger and interaction of some host galaxies are involved, one monolithic physical process is not sufficient to fully explain all kinds of observed phenomena.

Abstract Copyright: ∼

Journal keyword(s): dust, extinction - galaxies: evolution - galaxies: star formation - gamma rays: general

Simbad objects: 31

Full paper

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Number of rows : 31

N	Identifier	Otype	ICRS (J2000) RA	ICRS (J2000) DEC	Mag U	Mag B	Mag V	Sp type	#ref 1850 - 2023	#notes
1	GRB 070110	gB	00 03 39.270	-52 58 27.00	21.8	21.9	21.2	~	195	0
2	GRB 070611	gB	00 07 58.000	-29 45 19.40				~	88	0
3	GRB 071031	gB	00 25 37.40	-58 03 33.9				~	162	0
4	GRB 050904	gB	00 54 50.794	+14 05 09.42				~	459	0
5	GRB 070721B	gB	02 12 32.98	-02 11 39.8				~	112	0
6	GRB 070802	gB	02 27 35.91	-55 31 39.1				~	148	0
7	GRB 060906	gB	02 43 00.900	+30 21 42.12			19.84	~	130	0
8	GRB 060115	gB	03 36 08.400	+17 20 43.00				~	163	0
9	GRB 060210	gB	03 50 57.370	+27 01 34.40		20.27		~	248	0
10	GRB 060904B	gB	03 52 50.520	-00 43 30.61	18.27	19.14	18.37	~	185	0
11	Fermi bn090423330	gB	09 55 33.19	+18 08 57.7				~	344	0
12	GRB 050319	gB	10 16 47.900	+43 32 53.80		18.02	17.01	~	252	0
13	GRB 080603B	gB	11 46 07.46	+68 03 38.5				~	131	0
14	GRB 080607	gB	12 59 47.14	+15 55 09.6				~	229	0
15	GRB 060206	gB	13 31 43.420	+35 03 03.60		19.99	17.09	~	307	0
16	GRB 050730	gB	14 08 17.090	-03 46 18.90		20.32	17.68	~	303	0
17	GRB 080721	gB	14 57 55.76	-11 43 24.9				~	158	0
18	GRB 060714	gB	15 11 26.450	-06 33 58.30		20.21	18.54	~	189	0
19	GRB 060526	gB	15 31 18.360	+00 17 04.90		18.31	17.16	~	261	0
20	GRB 050401	gB	16 31 28.84	+02 11 14.5				~	329	0
21	GRB 080210	gB	16 45 04.03	+13 49 36.3				~	107	0
22	GRB 060926	gB	17 35 43.660	+13 02 18.60			19.36	~	125	0
23	SN 2005nc	SN*	18 32 32.560	+26 20 22.34				SNIc:	370	1
24	GRB 080413A	gB	19 09 11.73	-27 40 39.6				~	136	0
25	GRB 050922C	gB	21 09 33.000	-08 45 30.10	15.15	15.86	14.69	~	276	0
26	GRB 061110B	gB	21 35 40.400	+06 52 34.10				~	82	0
27	Fermi bn080804972	gB	21 54 41.90	-53 11 20.2				~	134	0
28	GRB 060927A	gB	21 58 11.930	+05 21 50.32				~	193	0
29	GRB 050820A	gB	22 29 38.110	+19 33 37.10	18.33	19.00	18.47	~	377	0
30	GRB 070506	gB	23 08 52.390	+10 43 20.30			19.04	~	77	0
31	GRB 060707	gB	23 48 19.000	-17 54 17.00			19.79	~	153	0

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