GRB 050820A, GRB 050820

F. Mannucci, S. Covino, D. Malesani, on behalf of the CIBO collaboration
report:


We observed the field of GRB 050820A (Page et al., GCN 3830
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 ) in the NIR
at the TNG equipped with NICS on the 21st of August at 05:00 UT, about
22.4 hours after the high-energy event. The OT identified by Fox et al.
(GCN 3829
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 ) is clearly visible with J magnitude:

J = 18.48 +/- 0.08

Calibration has been derived by comparison with a suitable number of
2MASS stars in the field.

This message can be cited.

Z. Aslan, I. Khamitov (TUG), U. Kiziloglu (METU), E. Gogus (Sabanci Uni.),
I. Bikmaev, A. Galeev, N. Sakhibullin (KSU/AST),
R. Burenin, M. Pavlinsky, R. Sunyaev (IKI),

report:

     We have continued  observing the OT of GRB 050820A (GCN 3829
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 ) with
the Russian-Turkish 1.5-m telescope (Bakirlitepe, TUBITAK National 
Observatory, Turkey)  using TFOSC in R band.
      We made 5*300s exposures between UT 22:40 - 23:05, August 27.  Using
Henden's stars (GCN 3845
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 ) present in the frames, we estimated the 
magnitude of the co-added image as R=22.14+/-0.1 (184.25h after the 
trigger).
      The OT is fading with the same power-law decay. Using all the data 
obtained at the RTT150 (GCN3864
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 , GCN3853
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 ) we estimated an alpha index of 
power-law decay of -1.06+/-0.03.

The JPG-image is available at:
http://www.tug.tubitak.gov.tr/~irekk/grb/grb050820a/grb050820A_050827r.JPG

This message may be cited.

I. Khamitov, Z. Aslan (TUG), U. Kiziloglu (METU), E. Gogus (Sabanci Uni.),
I. Bikmaev, A. Galeev, N. Sakhibullin (KSU/AST),
R. Burenin, M. Pavlinsky, R. Sunyaev (IKI),

report:

      We have continued  observing the OT of GRB 050820A (GCN 3829
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 ) with
the Russian-Turkish 1.5-m telescope (Bakirlitepe, TUBITAK National 
Observatory, Turkey)  on the nights of August 22 and 23  in B,Rc,Ic bands.
      We made a series of exposures between UT 20:23 - 01:33, August 22/23,
and between UT 20:09-00:34, August 23/24, 2005. The afterglow is still 
clearly detected in all bands. Using  Henden's stars (GCN 3845
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 ) present
in the frames, we estimated the magnitudes as follow:

   t-t0 	Band mag     merr  exptime
(hours)                   (sec,total)
64.39   B   22.24 -/+ 0.06 7860
64.43   Rc  21.02 -/+ 0.03 3900
64.53   Ic  20.46 -/+ 0.05 3900

87.57   B   22.57 +/- 0.08 5400
87.72   Rc  21.30 +/- 0.04 2700
87.82   Ic  20.87 +/- 0.09 2700

      We note that, on re-examining the co-added image for 21 Aug in B-band
(GCN 3853
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 ), we noticed that it included a cosmic ray event close to OT.
More careful  calculation has resulted in a fainter value of B magnitude: 
21.47 +/- 0.06 (40.93h after the trigger).

This message may be cited.

C. MacLeod, M. Nysewander report on behalf of the UNC team of the FUN GRB
Collaboration:


We have observed the position of the GRB 050820a afterglow reported by Fox
et al. (GCN 3829
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 ).  We detect the afterglow in RcIc:

Mean Time      Integration    Filter  Magnitude       Telescope
Since GRB      Time

2.2 hr         39 x 40 sec    Ic      17.40 +/- .08   PROMPT-3
2.2 hr         22 x 30 sec    Rc      17.64 +/- .09   PROMPT-5
21.5 hr        136 x 40 sec   Ic      18.42 +/- .11   PROMPT-3
21.7 hr        179 x 30 sec   Rc      20.06 +/- .31   PROMPT-5

Rc and Ic calibrations were made relative to 7 calibration stars posted by
Henden (GCN 3845
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 ).

PROMPT is still being built and commissioned.

C. Ledoux, P. Vreeswijk (ESO), S. Ellison (U. Victoria), A. Jaunsen
(ESO/U. Oslo), A. Smette (ESO), J. Fynbo (U. Copenhagen), P. Moller,
A.  Kaufer (ESO), M. Andersen (AIP), R. Wijers (U. Amsterdam) &
J. Hjorth (U. Copenhagen) report:

We observed the afterglow (Fox & Cenko, GCN 3829
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 ) of GRB 050820 (Page
et al, GCN 3830
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 ) with UVES at VLT/UT2, starting at 7:08 UT (33 minutes
after the burst trigger). The spectra cover most of the optical
wavelength range (split into two observations of a total of 60min
using one dichroic beam splitter and 40min using the other), with an
approximate resolving power of 46,000 (6.5 km/s).

We obtain a redshift of z=2.6147 (and therefore confirm the redshift
reported by Prochaska et al., GCN 3833
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 ) from the detection of numerous
host-galaxy metal absorption lines (e.g., CII, CIV, NI, OI, AlII,
AlIII, SiII, SiIV, SII, ArI, CrII, FeII, NiII, ZnII) spread over a
velocity interval of ~400 km/s. Strong fine-structure lines of CII*
and SiII* are also detected. We measure a total neutral hydrogen
column density of log N(HI)=21.0 and metallicities of [Si/H]=-0.6 and
[Fe/H]=-1.1.

In addition, an intervening metal absorption line system with log
N(HI)=20.0 is observed at zabs=2.3597.

We acknowlegde the excellent support from the ESO staff, and in
particular the alertness of night astronomer Stefano Bagnulo.

J. Cummings (GSFC/NRC), L. Barbier (GSFC), S. Barthelmy (GSFC),
D. Hullinger (GSFC/UMD), E. Fenimore (LANL), N. Gehrels (GSFC),
H. Krimm (GSFC/USRA), C. Markwardt (GSFC/UMD), D. Palmer (LANL),
A. Parsons (GSFC), T. Sakamoto (GSFC/NRC), G. Sato (ISAS),
J. Tueller (GSFC)
on behalf of the Swift-BAT team:

A second, larger, harder episode of gamma rays from T+217 to T+270
sec was detected from GRB 050820A, as noted by Golenetskii et al. 
in GCN circ. 3846
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 , 3852
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 .  We confirm that this larger episode of 
emission was from the same source as the first episode (from T-17
to T+22 sec), using BAT mask-weighting on a partial data set. 

Swift was entering the SAA as the first episode of emission was 
ending.  We reported BAT refined analysis for the period covering 
the first episode of emission in GCN circ. 3835
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 , 3848
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 .  The BAT 
entered SAA mode at T+241 sec.  At this time data collection became 
very limited.  We use mask-weighted data prior to this time, and a 
non-directional residual rate with a background model subtraction 
after this time, for the following information on the second 
episode:

There were two peaks at T+228 and T+259 sec.  T90 was 50 +/- 5 sec 
(for the second episode alone).  In a simple power law fit, the 
photon index for the first part of the second episode from T+217 
to T+241 was 1.06 +/- 0.03.  The 1-sec peak flux is estimated to 
be 6 +/- 1 ph/cm^2/sec (15-350 keV) at T+259 sec.  For reference, 
the previously reported photon index for the first episode of 
emission from T-17 to T+22 sec was 1.7 +/- 0.1 and the 1-sec peak 
flux was 1.3 +/- 0.2 ph/cm^2/sec (15-350 keV).  

We estimate the total fluence for the entire event including both 
episodes to be 8.4 +/- 0.3 x 10^-6 erg/cm^2 in the 15-150 keV band.  
The quoted uncertainty is statistical. Roughly 60% of the fluence 
is in the period lacking mask-weighted data and having a very high
background rate, thus systematic errors may be large and we 
estimate them to be +/- 0.6 x 10^-6 erg/cm^2.  The fluence estimate 
includes the assumption that the part of the second episode after 
T+241 sec had the same spectrum as it did from T+217 to T+241 sec.

For the entire burst then, using the measured redshift of 2.612 
(Prochaska, et al. GCN 3833
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 ), we calculate the isotropic-equivalent 
energy in the 54-542 keV band in the GRB rest frame (15-150 keV 
band in the observer's frame) as ~1.5 x 10^53 ergs.
-- 
Jay Cummings

I. Bikmaev, A. Galeev, N. Sakhibullin (KSU/AST),
R. Burenin, M. Pavlinsky, R. Sunyaev (IKI),
I. Khamitov, Z. Aslan (TUG), U. Kiziloglu (METU), E. Gogus (Sabanci Uni.),

report:

      We have observed the OT of GRB 050820A (GCN 3829
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 ) with the
Russian-Turkish 1.5-m telescope (Bakirlitepe, TUBITAK National
Observatory, Turkey) in two consequative nights .
      We made a series of exposures in Rc between UT 18:35 - 22:15, August 
20, 2005, and in BRcIc between UT 22:46-01:15, August 21/22, 2005. 
Moonlight produced variable background in all images for both nights. The 
afterglow is clearly detected in all bands. Using  Henden's stars (GCN 3845
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 )
present in the frames,  we estimated the magnitudes as follow:

   t-t0 		Band 	mag      merr   exptime
(hours, midtime)                       (sec,total)
18.05 		Rc 	19.48 +/- 0.01   900
41.42 		Rc 	20.38 +/- 0.05   1800
40.93 		B 	21.00 +/- 0.06   1800
41.55 		Ic 	19.83 +/- 0.07   1800

    On the basis of our Rc data, we estimeted an alpha index of power-law
decay for the observed period as ~ -1.0.

The JPG-images  of BRcIc and color combined image are available at:

http://www.tug.tubitak.gov.tr/~irekk/grb/grb050820a/grb050820A_b.JPG
http://www.tug.tubitak.gov.tr/~irekk/grb/grb050820a/grb050820A_r.JPG
http://www.tug.tubitak.gov.tr/~irekk/grb/grb050820a/grb050820A_i.JPG
http://www.tug.tubitak.gov.tr/~irekk/grb/grb050820a/grb050820_bri.JPG

This message may be cited.

V. Pal'shin and D.Frederiks on behalf of the Konus-Wind team:

There were several misprints in our GCN 3846
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 .

The subject line should have read:
------------------------------------
"GRB 050820a - a long GRB like GRB041219a? (Konus-Wind observation)"
------------------------------------

The correct circular text should be:
------------------------------------
"S. Golenetskii, R.Aptekar, E. Mazets, V. Pal'shin, D. Frederiks
and T. Cline on behalf of the Konus-Wind team,
and A. Rau, A. von Kienlin, G. Lichti on behalf of the INTEGRAL SPI-ACS
GRB team report:

A long soft GRB triggered Konus-Wind at T0=23954.512s UT (06:39:14.512)
on August 20. It was also detected by INTEGRAL SPI-ACS. Because the
burst was soft, the SPI-ACS response was weak, and precise triangulation
of this burst is not possible. But the estimated time delay is
consistent with the
position of GRB 050820a, detected by Swift-BAT ~260 sec before
Konus-Wind trigger (Page, et al., GCN 3830
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 ; Cummings, et al., GCN 3835
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 ).

The Konus-Wind GRB consists of two parts:
from ~T0-35s to ~T0+29s and from ~T0+135s to ~T0+235s
and is much more intense than the Swift burst (precursor?),
which was weakly seen by Konus-Wind in background data.
The total burst duration is ~270 s.

The Konus-Wind light curve recorded in the background mode
is very similar to the light curve of the famous GRB 041219a
(Vestrand et al., Nature, 435, 178 (2005)):
weak precursor, main pulse at ~250 sec after it,
second pulse at ~150 s after main and then - weaker pulse(s).
The Konus-Wind light curve of this GRB can be seen
at http://www.ioffe.rssi.ru/LEA/GRBs/GRB050820_T23954/

Based on these facts, we strongly suggest that this GRB is the main part
of the GRB 050820a.
In this case the optical transient reported by Fox and Cenko (GCN 3829
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 )
and by Wren et al. (GCN 3836
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 ) is in fact the prompt optical emission of
very long GRB 050820a (the total burst duration including Swift
precursor is ~500 sec).

We hope, that the further analysis of this event will clarify this
issue."
---------------------------------
We apologize for these misprints.

T. Sakamoto (GSFC/NRC) on behalf of the Swift-BAT team:

The isotropic-equivalent energy of GRB050820A reported in GCN 3835
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is not correctly represented.  We want to correct the last paragraph 
of GCN 3835
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  to the following.  

"The isotropic-equivalent energy using the redshift of 2.612 
(Prochaska, et al. GCN 3833
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 ) is (2.2 +- 0.13) x 10^52 ergs 
in the 54-542 keV band in the GRB rest frame (15-150 keV band 
in the observer's frame) using a simple power-law model."  

We would like to thank Dr. Arnon Dar for reporting about this mistake.

P. B. Cameron (Caltech) and D. A. Frail (NRAO) report on behalf of a
larger collaboration:

"We have undertaken VLA observations at a frequency of 8.46 GHz toward
GRB 050820A (GCN 3830
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 ) on August 20.39 UT and 21.20 UT, about 2.9 hrs
and 22.3 hrs after the burst, respectively. On the first epoch no
significant radio emission was detected at the position of the optical
afterglow (GCN 3829
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 ), but on the second epoch a new radio source has
appeared with a flux density of 690+/- 41 microJy.

Further observations are planned.

The National Radio Astronomy Observatory is a facility of the National
Science Foundation operated under cooperative agreement by Associated
Universities, Inc."

A. Henden (AAVSO/USNO) reports on behalf of the USNO GRB Team:

We have acquired BVRcIc all-sky photometry for a 23x23arcmin
field centered on the coordinates of the optical afterglow
(Fox and Cenko, GCN 3829
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 ) for the Swift burst GRB050820a
(Page et al., GCN 3830
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 ) with the USNOFS 1.0-m telescope
on one photometric night but with bright moonlight.  Stars
brighter than V=12.0 are saturated and should be used with
care.  We have placed the photometric data on our anonymous
ftp site:
ftp://ftp.nofs.navy.mil/pub/outgoing/aah/grb/grb050820.dat

The astrometry in this file is based on linear plate solutions
with respect to UCAC2.  The external errors are about 100mas.
The estimated external photometric error is about 0.03mag.

As always, you should check the dates on the .dat file prior to
final publication to get the latest photometry.  There is
a README file on the ftp directory to give you information
about the procedures used to calibrate these fields.

Daryl Macomb, Jessica Elias (Boise State U.), 
Jerry Bonnell, Alexander Kutyrev, Jay Norris (NASA/GSFC),
and Ron Canterna, Mike Pierce (U. Wyoming) report:

We observed the position reported by Fox and Cenko (GCN 3829
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 )
of the afterglow for GRB 050820a (Swift trigger #151207, Page et al.,
GCN 3830
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 ) with the 2.3-meter WIRO telescope.  Starting at 08:10 UT 
(96 minutes after the GRB trigger) and continuing until 11:30 UT, 
we detected the fading afterglow in the J band in each of 120 40-s
integrations.  J magnitudes determined at the following times were
(relative to burst trigger):

Epoch   T-Ttrig     J mag
  1      6240 s      16.0
  2      9600 s      16.7
  3     16020 s      16.9

Between epochs 1 and 2, the inferred average power-law decay index 
is -1.5, steeper than the -0.9 index reported by Cenko and Fox
(GCN 3834
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 ) for the initial decay during the interval ~ 7 - 93 minutes 
after the burst.  Between epoches 2 and 3, the average decay index 
flattens to -0.44, after which our observations ended due to twilight.

The times of the three reported epochs are arbitrary.  Detailed 
analysis to yield accurate break times and indices is in progress.

M. Chester (PSU), M. Page (UCL-MSSL), P. Roming (PSU),
F. Marshall (GSFC), P. Boyd (GSFC), L. Angelini (GSFC-JHU),
J. Greiner (MPE), N. Gehrels (GSFC), on behalf of the Swift UVOT team.


Swift/UVOT began observing GRB050820 at 06:36:13 UT.
The initial 100-second finding chart exposure in V was cut short
due to entry into the SAA; it was repeated on the second orbit.


The afterglow is detected in the V, B, U, and one UV band.
Similar to the ground-based observations (GCN #3829
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 ),
UVOT sees a rising, then falling, light curve in V.
Analysis in the other bands is continuing.


V-band Observations:
Time-Since-Trigger       V
   80 s               18.2 +/- 0.3
 4635 s               17.6 +/- 0.2
12238 s               18.2 +/- 0.2


Other:
Time-Since-Trigger    Mag               Filter
 5647 s                18.3 +/- 0.2       U
10423 s                19.0 +/- 0.1       B
 4741 s                20.4 +/- 0.2       UVW1
11331 s               >21.0               UVW2


The magnitudes have not been corrected for extinction.
Upper limits are given at the 5-sigma level.

K.L. Page, A.P. Beardmore, M.R. Goad (U. Leicester), J.A. Kennea, D.N.
Burrows (PSU), F. Marshall (GSFC) and A. Smale (NASA HQ) report on behalf
of the Swift/XRT team:

We have analysed the first 6 orbits of XRT data for GRB050820, spanning 88
- 3e5 seconds after the burst. There is a bright, fading afterglow in the
field of view, with refined coordinates of

RA(J2000):  22:29:38.2
Dec(J2000): 19:33:31.1

with an uncertainty of 7 arcseconds radius (90% containment). This is 5.9
arcsec from the on-board XRT position given in GCN 3830
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  and 6
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 .1 arcsec
from the optical afterglow reported in GCN 3829
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 .

XRT observations began in Windowed Timing mode 88 seconds after the
trigger, followed by Photon Counting (PC) data from the start of the
second orbit (4660 seconds after the burst). The PC data show a smooth
decline with a decay slope of alpha = 1.13 +/- 0.04.

The PC spectrum can be well fitted by a power-law with Gamma = 1.94 +/-
0.07, and an excess absorbing column of ~6e21 cm^-2 in the rest-frame of
the GRB (taking the redshift of 2.612 from GCN 3833
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 ).

Assuming a smooth, unbroken decay, the predicted count-rate at 24 hours
(06.30 UT on 2005-08-21) is 0.085 count s^-1, corresponding to an
unabsorbed 0.3-10 keV flux of 3.4e-12 erg cm^-2 s^-1.

J. Wren, W. T. Vestrand, P. Woznaik, S. Evans, R. White report
on behalf of the RAPTOR team at Los Alamos National Laboratory:

The RAPTOR system of robotic telescopes responded to GRB 050820
(Swift trigger 151207) beginning at 06:35:20.46 UT, 5.5 seconds
after the GCN notice was sent.  We detect the object reported by
Fox and Cenko (GCN 3029
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 ).  Our early images show the source
rising rapidly to a unfiltered peak magnitude of ~14.5.  We confirm
the Fox and Cenko observation that the source reaches
a peak brightness approximately 8 minutes after the burst and
then begins a steady power law decline.

J. Cummings (GSFC/NRC), L. Barbier (GSFC), S. Barthelmy (GSFC),
J. Cannizzo (GSFC-UMBC), L. Cominsky (Sonoma State U.),
D. Hullinger (GSFC/UMD), E. Fenimore (LANL), N. Gehrels (GSFC),
H. Krimm (GSFC/USRA), C. Markwardt (GSFC/UMD), D. Palmer (LANL),
A. Parsons (GSFC), T. Sakamoto (GSFC/NRC), G. Sato (ISAS),
J. Tueller (GSFC)
on behalf of the Swift-BAT team:

Using the full data set from the recent telemetry downlink, we 
report further analysis of Swift-BAT GRB 050820 (trigger #151207)
(Page, et al., GCN 3830
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 ).  The ground-analysis position is
RA,Dec 337.418, +19.560 (J2000) with an uncertainty of 2 arcmin
(radius, 90%, stat+sys).  This is 31 arcseconds from the optical
transient reported by Fox et al. in GCN Circ. 3829
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 .

The light curve is multi-peaked and the spectrum clearly evolves 
from hard to soft within each of the two main peaks.  There is a 
probable small precursor at ~ T-15 seconds, the largest peak at 
T+0 seconds, and two other peaks at T+9 and T+13 seconds.  T90 is 
26 +- 2 seconds.  Fitting a simple power law over the interval from 
T-17 to T+22 seconds, the photon index is 1.7 +/- 0.1 with a fluence 
of 1.9 +/- 0.2 x 10^-6 erg/cm^2 in the 15-350 keV band (90% c.l).  
The peak flux in a 1-second wide window starting at T-0.25 seconds
is 1.3 +/- 0.2 ph/cm^2/sec (15-350 keV).  

The isotropic-equivalent energy using the redshift of 2.612 
(Prochaska, et al. GCN 3833
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 ) is 9.7 (-2.6/+3.5) x 10^51 ergs 
in the 4.2-41.5 keV band in the GRB rest frame (15-150 keV band in 
the observer's frame) using a simple power-law model.

S. Bradley Cenko (Caltech) and Derek B. Fox (Penn State) report on behalf
of a larger collaboration:

We have continued to image the afterglow (GCN 3829
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 ) of GRB 050820 (GCN
3830
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 ) with the automated Palomar 60-inch telescope.  Using the USNO-B1
star located at RA=22:29:39.88, Dec=+19:32:47.5 (USNO-B1 1095-0581263, R =
15.21) as a reference, we find, after rising to a peak magnitude of R =
14.7 approximately 7 minutes after the burst, the afterglow has exhibited
a relatively smooth power-law decay with index alpha = -0.9.  In an image
taken ~ 93 minutes after the burst, the afterglow has a magnitude of R ~
17.4.

Further observations are planned.

J. X. Prochaska (UCO/Lick), J. S. Bloom, J. T. Wright (UC Berkeley),
R. Paul Butler (DTM, Carnegie), H. W. Chen (MIT), S.S. Vogt (UCO/Lick),
and G.W. Marcy (UC Berkeley) report:

"Starting at 07h28m59s 20 Aug 2005 UTC, we began spectroscopic 
observations
of the optical transient (Fox & Cenko GCN #3829
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 ) of GRB 050820
(Page et al. GCN #3830
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 ) with HIRES/Keck I. In a series of 900 sec 
exposures
the continuum from the afterglow is well detected as are many absorption
lines.  Based on the identification of a damped Ly alpha feature, SiII 
1304, OI 1302, and numerous fine structure lines we measure the GRB 
redshift to be
z=2.612 +/- 0.002."

We are grateful to Derek Fox for his assistance in helping us acquire 
this data.

This message may be cited.

----------------------------------------------
Jason X. Prochaska
UCO/Lick Observatory
UC Santa Cruz
Santa Cruz, CA 95064

xavier@ucolick.org
http://www.ucolick.org/~xavier/
831-459-2135 (Direct)
831-459-2991 (UCO/Lick Main)
831-459-5244 (Fax)

M. Page (UCL-MSSL), D. Burrows (PSU), A. Beardmore (U. Leicester), D. 
Palmer (LANL),
J, Kennea (PSU), N. Gehrels (GSFC), C. Markwardt (GSFC/UMD), K. Page (U. 
Leicester),
T. Sakamoto (GSFC/NRC), M. Chester (PSU), P. Boyd (GSFC) report on behalf 
of the Swift team:

At 06:34:53 BAT triggered, located, and immediately slewed to GRB
050820 (trigger=151207).  The BAT on-board calculated position is
RA,Dec 337.400d, +19.578d {22h 29m 36s, 19d 34' 42"} (J2000) with an
uncertainty of 2 arcmin (radius, 90% containment, stat+sys).  The BAT
light curve shows a broad double-humped structure about 20 seconds
long, with peaks around T+1s and T+14 s, with a peak count rate
of ~1500 counts  per second (15-350 keV) at ~1 second after the trigger.

XRT began observing at 06:36:13 UT, 80s after the BAT trigger. A bright 
uncatalogued source was found in the field, which XRT was able to centroid 
on. The on-board calculated coordinates of this source are: 
RA(J2000):  22:29:37.8, Dec(J2000): 19:33:32.7, with an uncertainty of 7 
arcseconds radius (90% containment). This position lies 73 arcseconds from 
the center of the BAT error circle, and 6.2 arcseconds from the P60 
position (GCN 3829
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 ).

The UVOT began observations at 06:36:13 UT, 80s after the BAT trigger. 
There is no new source detected in the preliminary UVOT data in the XRT 
error circle.

Derek B. Fox (Penn State) and S. Bradley Cenko (Caltech) report on
behalf of a larger collaboration:

"We have observed the BAT/XRT localization region of GRB050820 (Swift
Trigger #151207) with the robotic Palomar 60-inch telescope (P60), in
a series of automated exposures beginning at 06:37 UT, approximately 3
minutes after the burst.

We identify a bright, new, variable point source within the XRT (and
BAT) localization region at coordinates:

    R.A.  22:29:38.11, Dec +19:33:37.1 (J2000)

with coordinate uncertainty <0.5 arcsec relative to USNO-B1.0 catalog
astrometry.  Photometry of the source relative to the USNO-B1.0
catalog indicates that in the R-band it brightens to a peak magnitude
of R~14.7 mag at 7 minutes after the burst and has decayed by 0.4 mag
at 12 minutes after the burst.

We therefore identify the source as the optical afterglow of
GRB050820."