2009ApJ...702..489R

Query : 2009ApJ...702..489R

2009ApJ...702..489R - Astrophys. J., 702, 489-505 (2009/September-1)

Looking into the fireball: ROTSE-III and Swift observations of early gamma-ray burst afterglows.

RYKOFF E.S., AHARONIAN F., AKERLOF C.W., ASHLEY M.C.B., BARTHELMY S.D., FLEWELLING H.A., GEHRELS N., GOGUS E., GUVER T., KIZILOGLU U., KRIMM H.A., McKAY T.A., OZEL M., PHILLIPS A., QUIMBY R.M., ROWELL G., RUJOPAKARN W., SCHAEFER B.E., SMITH D.A., VESTRAND W.T., WHEELER J.C., WREN J., YUAN F. and YOST S.A.

Abstract (from CDS):

We report on a complete set of early optical afterglows of gamma-ray bursts (GRBs) obtained with the Robotic Optical Transient Search Experiment (ROTSE-III) telescope network from 2005 March through 2007 June. This set is comprised of 12 afterglows with early optical and Swift/X-Ray Telescope observations, with a median ROTSE-III response time of 45 s after the start of γ-ray emission (8 s after the GCN notice time). These afterglows span 4 orders of magnitude in optical luminosity, and the contemporaneous X-ray detections allow multi-wavelength spectral analysis. Excluding X-ray flares, the broadband synchrotron spectra show that the optical and X-ray emission originate in a common region, consistent with predictions of the external forward shock in the fireball model. However, the fireball model is inadequate to predict the temporal decay indices of the early afterglows, even after accounting for possible long-duration continuous energy injection. We find that the optical afterglow is a clean tracer of the forward shock, and we use the peak time of the forward shock to estimate the initial bulk Lorentz factor of the GRB outflow, and find 100 ≲ Γ0≲ 1000, consistent with expectations.

Abstract Copyright:

Journal keyword(s): gamma rays: bursts

VizieR on-line data: <Available at CDS (J/ApJ/702/489): table1.dat table2.dat refs.dat>

Simbad objects: 25

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Number of rows : 25
N Identifier Otype ICRS (J2000)
RA 		ICRS (J2000)
DEC 		Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2024 		#notes
1 GRB 070611 gB 00 07 58.000 -29 45 19.40           ~ 89 0
2 GRB 041219 gB 00 24 27.7 +62 50 34           ~ 225 1
3 GRB 071031 gB 00 25 37.40 -58 03 33.9           ~ 166 0
4 GRB 021004 gB 00 26 54.68 +18 55 41.6           ~ 547 0
5 GRB 061007 gB 03 05 19.510 -50 30 02.50 14.28 14.40 12.95     ~ 289 1
6 GRB 060904B gB 03 52 50.520 -00 43 30.61 18.27 19.14 18.37     ~ 192 0
7 GRB 061126 gB 05 46 24.460 +64 12 38.49 18.62 18.79 19.20     ~ 173 1
8 GRB 060729 gB 06 21 31.850 -62 22 12.69           ~ 282 0
9 GRB 061121 gB 09 48 54.570 -13 11 42.68 17.19 17.71 17.02     ~ 326 0
10 GRB 050319 gB 10 16 47.900 +43 32 53.80   18.02 17.01     ~ 258 0
11 GRB 050801 gB 13 36 35.000 -21 55 41.00 15.03 15.82 15.46     ~ 156 0
12 GRB 080319A gB 13 45 19.97 +44 04 49.1           ~ 76 0
13 GRB 990123 gB 15 25 29 +44 45.0     8.95     ~ 989 1
14 GRB 060418 gB 15 45 42.600 -03 38 20.00 15.73 16.19 14.98     ~ 360 0
15 GRB 050401 gB 16 31 28.84 +02 11 14.5           ~ 335 0
16 SN 2005nc SN* 18 32 32.560 +26 20 22.34           SNIc: 382 1
17 GRB 060111B gB 19 05 42.480 +70 22 33.60     17.55     ~ 85 1
18 GRB 050922C gB 21 09 33.000 -08 45 30.10 15.15 15.86 14.69     ~ 282 0
19 GRB 060605 gB 21 28 37.320 -06 03 31.30   20.12 16.53     ~ 193 0
20 GRB 060927A gB 21 58 11.930 +05 21 50.32           ~ 196 0
21 GRB 060607 gB 21 58 50.400 -22 29 46.70 18.49 16.67 15.09     ~ 295 0
22 GRB 051109A gB 22 01 15.320 +40 49 23.70   20.09 20.14     ~ 173 0
23 GRB 050820A gB 22 29 38.110 +19 33 37.10 18.33 19.00 18.47     ~ 386 0
24 GRB 051111A gB 23 12 33.170 +18 22 28.80 19.77 20.08 19.50     ~ 206 0
25 GRB 061222 gB 23 53.0 +46 32           ~ 18 0

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