GRB 020813

J. Gorosabel* (IAA-CSIC, Granada), J.P.U. Fynbo* (Univ. of Aarhus), 
J. Hjorth, H. Pedersen, B.L. Jensen (Univ. of Copenhagen),  
S.T. Holland* (Notre Dame),  J.M. Castro Cerón* (ROA, San Fernando), 
M. Andersen (AIP, Potsdam), A.J. Castro-Tirado (IAA-CSIC, Granada) 
report:

We have imaged the GRB 020813 (GCN 1471
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 ) optical afterglow (GCN 1470
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 )
with the 1.54-m Danish Telescope (+DFOSC) as follows:

 ===================================================================
  Date              Filter Seeing   Exp.Time  Time Since   Mag
  (UT)                      (")       (s)     GRB (days)
 -------------------------------------------------------------------
 10.01-10.13/10/2002  R     1.0   2x1200+8x900  58.0    23.90+/-0.14
 09.02-09.17/10/2002  B     1.7     10x1200     57.0    24.46+/-0.19 
 -------------------------------------------------------------------

The calibration is based on the photometric standards given in GCN 
1503
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 . The B-R colour of our measurements (B-R=0.56+/-0.24) is bluer
than the ones reported for the afterglow to date (constant around
B-R ~ 1, see GCN 1513
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 ).

This "blueing" could be due to a change of spectral slope in the 
afterglow or the presence of an underlying blue host galaxy.

Given the epoch of our observations (~60 days after the gamma-ray 
event) we consider the second possibility more likely. The 
faintness of our detection does not allow us to see any extended
structure.

Two gifs of the potential host galaxy can be seen at:

 http://www.dsri.dk/~jgu/grb020813/GCN/grb020813R.gif
 http://www.dsri.dk/~jgu/grb020813/GCN/grb020813B.gif

-----------------------------------------------------
 * Visitors at the Copenhagen University Observatory.

G.Beskin, A.Birjukov, S.Koposov, O.Spiridonova (SAO) and A.Pozanenko (IKI)
report:

We have observed the OT of GRB020813 reported by D. Fox et al. (GCN 1470
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 )
with Zeiss-1000 telescope of Special Astrophysical Observatory (SAO). Three
R-band images (exposure of each 303 sec) were taken on August 13 between
18:43 - 19:05 UT.

Using combined image of the 3 exposures and calibration data provided by A.
Henden (GCN 1503
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 ) we obtained R magnitude of 19.70 +/- 0.25.

The combined image may be found at http://grb.rssi.ru/GRB020813
=================================
R=19.70 +/- 0.25 at UT 18.72 August 13, 2002
=================================

This message may be cited.

F. Fiore, S. Savaglio (also JHU), L.A. Antonelli, A. Fontana, G. Marconi,
L. Stella, A. Di Paola, G. Stratta, G. Israel (INAF-OAR), S. Covino,
G. Chincarini, G. Ghisellini, P. Saracco, F. Zerbi (INAF-OABrera),
D. Lazzati (Cambridge, UK), R. Perna (CfA), M. Vietri (Univ. Roma Tre),
F. Frontera (Univ. di Ferrara), S. Mereghetti (CNR-IASF), 
E.J.A. Meurs (Dunsink Obs.) and N. Kawai (Titech, RIKEN) report:

"Starting on August 13 2002 23:32 UT we have obtained high resolution 
(R=40,000, 7.5 km/s in the observer frame) spectra of the optical 
afterglow of GRB020813 (Fox et al., GCN #1470
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 ) using UVES at VLT/Kueyen.
This resolution is 4 times better than the best resolution obtained so 
far for GRB OT spectra, confirming that this kind of observations is 
capable to map accurately the kinematics and metallicities of 
medium-high redshift galaxies. Observations consisted of 3 exposures, 
for a total of 7,700 seconds, covering the full spectral range 3500-9800 
Angstrom, in good seeing conditions (better than 1"). At the time of 
the observations the afterglow magnitude was R=20.4 and V=20.8 (see
Gladders & Hall, GCN #1513
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 ). 

A preliminary reduction of the spectra is already revealing the very
rich and complex structure of the ISM in the putative GRB host galaxy.
Strong absorption lines of MgI2852, MgII2803, MgII2796, FeII2344,
FeII2374, FeII2382 at a mean redshift of z = 1.2545 are clearly detected 
(see Price et al., GCN #1475
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 ), spanning a total velocity range of up
to about 400 km/s. Several narrow components are resolved down to a
width of a few tens of km/s."

This message may be cited

Mike Gladders (Carnegie Observatories) and Pat Hall (Princeton/Catolica):

On the basis of previous experience with the public release of GRB
data taken by us at LCO (GCN #1209
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 ), we have decided to release the
Baade 6.5m (Magellan I) data taken of GRB 020813 on the nights of
August 13 and 14 UT for general use by the community. We anticipate
that this high-quality data, which provides several hours of early
photometry of the burst under sub 0".5 seeing conditions, will be of
use to a number of researchers. As before, we anticipate that
appropriate collaboration(s) will evolve as circumstances
dictate. Meanwhile, the pre-processed data, including a README file
detailing observing conditions and preliminary zeropoints for the
images, can be downloaded by anonymous ftp from:

ftp.ociw.edu

pub/gladders/GRB/GRB020813

Raw science frames, as well as extensive calibration data can be
provided if necessary; please contact Mike Gladders
(gladders@ociw.edu) to arrange for this.

A.J. Levan, A.S. Fruchter, I. Burud and J.E. Rhoads (STScI)
report for the larger GOSH collaboration:

The field containing the optical counterpart of GRB 020813 was imaged by
HST using ACS/HRC, ACS/WFC and NICMOS on 17th August beginning at 04:00 UT
approximately 98 hours after the burst.

The optical counterpart is clearly visible in our images. Using the
zeropoints for the filters on ACS/WFC, as given below, we find the
magnitude of the counterpart to be:

FILTER    Z_P(AB) OT MAG(AB)
==========================
F435W     25.47     23.20
F606W     26.35     22.71
F814W     25.86     22.33

This is consistent with a spectral slope of beta =-0.8.

Comparing to early, 3 hour I Band observations (GCN 1513
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 ) gives
an approximate slope of ~t^-1.07. Comparing to observations taken after
23 hours (also GCN 1513
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 ) indicates a somewhat faster (broken) slope
of t^-1.35.

The OT appears largely point like, however a PSF subtraction reveals some
evidence for a possible 25th magnitude host galaxy underlying the OT.

Images of the field of GRB 020813 may be found at

http://www.stsci.edu/~fruchter/GRB/020813

Analysis is continuing and further observations are planned.

Mike Gladders (Carnegie Observatories) and Pat Hall
(Princeton/Catolica) report: 

"The photometric data reported previously by us yield the following
decay slopes for the OT of GRB020813.  The decay slopes in various
filters implied by the data from August 13UT are:

    I: -0.677+-0.016 (all data August 13UT)
    I: -0.76+-0.03 (only UT>6.5, to match R&V time range)
    R: -0.82+-0.06
    V: -0.75+-0.05

"These data are consistent with the same power law decay in all three
filters in the time interval 6.5<UT<7.5, and are consistent with the
discussion in GCN #1476
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 . Based purely on these data, the two earlier
I-band data points are 0.045+-0.015 magnitudes too faint, implying
that a break in the decay has already occurred by ~4 hours after the
GRB event. This is again consistent with GCN #1476
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 .

"Also, the data yield decay slopes between August 13 and 14 UT of
-0.96+-0.04,-1.02+-0.01,-1.01+-0.02 in I,R and V respectively. These
values lie midway between the early time slope (above, and GCN #1476
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 ),
and the later time slope of -1.4+-0.02 (August 13.99 UT to August
16.03 UT, GCN #1500
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 ). The slope derived here is nominally inconsistent
with the decay reported in GCN #1491
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  (-1.44) over a time window
similar to the data reported here.  However, allowing for the
uncertainties of the three data points in GCN #1491
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  yields a decay
slope of -1.3+-0.30, consistent with the results reported here.

"It thus appears that the decay slope of this OT has continued to
steepen with time, rather than having undergone a simple break."

Mike Gladders (Carnegie Observatories) and Pat Hall
(Princeton/Catolica) report: 

"A total of 37 images (16 in I, 10 in R, 11 in V) of the OT associated
with GRB020813 were acquired with the Baade 6.5m (Magellan I)
telescope and TEK5 camera on the night of August 13 UT, under
conditions of excellent seeing and transparency. A further 15 images
(5 in I, 4 each in BR and 2 in V) were acquired on the night of August
14 UT, under similar conditions, though with some possible cirrus.

"A preliminary analysis of these images yields the magnitudes below
for the OT associated with GRB020813. Magnitudes have been computed
differentially relative to approximately 20 stars straddling the
magnitude range of OT, located in the same field (2x2 arcminutes).
Internal uncertainties (estimated from residuals in the differential
corrections) are about 0.01 magnitudes on August 13 UT, and about 0.02
on August 14UT, and the systematic uncertainty in the calibration of
the zero-points is less than 0.05 magnitudes in most cases. The B-band
zero-point, established on August 14 UT, may be affected by light
cirrus on the science frames, and is questionable."


August 13 UT:
-------------

I-band:
-------
 UT	Magnitude
 5.7742 17.910
 5.8922 17.928
 6.6153 18.061
 6.7461 18.090
 6.7733 18.108
 6.7986 18.078
 6.8236 18.106
 6.8486 18.104
 7.0036 18.139
 7.2939 18.192
 7.4225 18.208
 7.5400 18.249
 7.5650 18.241
 7.5900 18.233
 7.6153 18.228
 7.6403 18.273

R-band:
-------
 UT	Magnitude
 6.7061 18.491
 6.9122 18.520
 6.9422 18.536
 7.1478 18.578
 7.1728 18.579
 7.1978 18.582
 7.2228 18.591
 7.3222 18.608
 7.3925 18.625
 7.5083 18.654

V-band:
-------
 UT	Magnitude
 6.6767 18.850
 6.8836 18.882
 6.9739 18.916
 7.0400 18.922
 7.0653 18.930
 7.0906 18.929
 7.1156 18.932
 7.2614 18.953
 7.3592 18.982
 7.4508 19.000
 7.4781 18.999



August 14 UT:
-------------

I-band:
-------
 UT	Magnitude
 1.0033 19.854
 1.0344 19.862
 1.0594 19.837
 1.0844 19.891
 1.1094 19.848

R-band:
-------
 UT	Magnitude
 1.2447 20.420
 1.2697 20.411
 1.2947 20.420
 1.3197 20.419

V-band:
-------
 UT	Magnitude
 1.3486 20.805
 1.3736 20.811

B-band:
-------
 UT	Magnitude
 1.1397 21.365
 1.1647 21.315
 1.1897 21.343
 1.2147 21.338

A. Di Paola (1), A. Arkharov (2), V. Larionov (3),
L. A. Antonelli (1)

1) Rome Astronomical Observatory (IT)
2) Pulkovo Observatory (RU)
3) St.Petersburg University (RU)

on the behalf of the GROAR Team, report:

We have imaged the GRB020813 OT (GCN 1471
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 ) from the
Campo Imperatore Observatory both with the 60cm
Schmidt telescope at optical wavelengths and with
the 1.1 meters AZT-24 telescope at NIR wavelengths.

Observations started on 2002-08-13 19:50:00 UT
and ended the same day on 23:52:00 UT, respectively
16.1 and 21.1 hours after the burst.

The extremely low elevation (always between 2 and 3
airmasses) and the consequent poor seeing conditions
allow us to barely distinguish between the OT and the
double star located about 3.8" to the North (see
U. Kiziloglu et al. GCN 1488
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 , W. D. Li et al. GCN 1491
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 ,
M. Gladder et al. GNC 1495). For this reason the following
magnitudes have to be considered lower limits until
we will complete the subtraction of the field components.

We obatined V, R, I, J and K images at:
2002-08-13 19.42 V-band: OT ~ 19.90 +- 0.20
2002-08-13 19.77 R-band: OT ~ 18.85 +- 0.20
2002-08-13 20.49 I-band: OT ~ 19.90 +- 0.20
2002-08-13 21.61 R-band: OT ~ 19.70 +- 0.20
2002-08-13 22.88 V-band: OT ~ 20.35 +- 0.20
2002-08-13 23.38 I-band: OT ~ 20.15 +- 0.20
and a continuous repetition of J and K images
starting from 18.83 up to 23.88 UT.

We extimated the color indexes between optical and
NIR bands:
  V-J ~ 1.3 +- 0.5
  V-K ~ 3.1 +- 0.5
and the magnitudes at J and K to be about 18.8 and
17.0 respectively.

The magnitudes calibration is obtained from
A. Henden GCN 1503
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  for the optical points and from
2MASS catalog for the infrared points.

The refined analysis is underway.

GRB020813: Fading X-ray Afterglow Observed with Chandra

R. Vanderspek, H. L. Marshall, P. G. Ford, and G. R. Ricker (MIT 
Center for Space Research)

report:

Beginning at August 13.990 (t[burst] + 21.02 hr) and continuing until 
August 14.892 (t[burst] + 42.67 hr), Chandra High Energy Transmission 
Grating Spectrometer (HETGS) observations were conducted of a field 
centered on the optical afterglow candidate (Fox et al, GCN1470
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 ) for 
GRB020813, which was accurately localized by both the HETE WXM and 
SXC instruments (Villasenor et al, GCN1471
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 ; Jernigan et al, GCN1494
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 ). 
We have detected a moderately bright, fading X-ray afterglow 
consistent in position with the optical source (Henden et al, 
GCN1478
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 ). Over the 76.8 ksec of data accumulation (livetime) for the 
Chandra observations, the mean counting rate was 0.19 counts/s 
(summed over the dispersed signal from the HEG and the MEG gratings, 
and including the 0th order flux). The source we detected faded in 
brightness according to a power law, with a decay time slope of -1.42 
+/- 0.05. (This value is remarkably close to the decay slope values 
near -1.4 being reported for the afterglow of GRB020813 in the 
optical; e.g. Malesani et al, GCN1500
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 , and references therein.) The 
source spectrum we derive from our preliminary analysis of the 
dispersed HETGS counts is characterized as follows:

nH = 7 x 10^20 cm^(-2), consistent with the anticipated galactic 
absorption in the source direction;

dN/dE = A * E^ (-gamma) ph cm^(-2) s^(-1) keV^(-1) ,
over the 0.6-6 keV range, with A = 0.00051, and gamma = 1.75

Thus, the mean flux for the 0.6 to 6 keV band over the duration of 
the Chandra observation was ~2.2 x 10^(-12) ergs cm^(-2) s^(-1).

Our analyses are continuing, and more detailed results will be posted at:

http://space.mit.edu/HETE/

We thank Harvey Tananbaum for his generous allocation of Director's 
Discretion Time to this observation, and the Chandra X-ray 
Observatory Operations personnel for the impressive promptness with 
which this observation was planned and carried out.

The preliminary results reported here may be cited.

A. Henden (USRA/USNO) reports on behalf of the USNO GRB team:

We have acquired UBVRcIc all-sky photometry for
an 11x11 arcmin field centered at the optical transient coordinates
for GRB020813 (Villasenor et al. GCN 1471
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 ; Fox et al. GCN 1470
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 )
with the USNOFS 1.0-m telescope on one photometric night.  Stars
brighter than V=14.0 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/grb020813.dat
The astrometry in this file is based on linear plate solutions
with respect to UCAC2.  The external errors are less than 100mas.

While the night was photometric, the extinction was high
due to nearby forest fires.  The GRB field is towards
our southern horizon and so there is a greater risk of
zeropoint errors due to nonuniform smoke.  We estimate the
present zeropoint errors to be about 0.03mag.
The current calibration also has a brighter limiting magnitude
than normal due to the moonlit sky.  We will be extending this
calibration fainter and with additional nights to ensure against
a systematic zeropoint error.  You should check the dates on
the .dat file prior to final publication to get the latest photometry.

S. Covino, D. Malesani, G. Ghisellini, P. Saracco, G. Tagliaferri, F. Zerbi 
(Observ. of Brera, Milan, Italy); S. Di Serego, A. Cimatti, M. Della Valle 
(Observ. of Arcetri, Florence, Italy); F. Fiore, G.L. Israel, L. Stella 
(Observ. of Monte Porzio, Rome, Italy); M. Vietri (Univ. Rome 3, Italy); N.  
Kawai (Tokyo Tech, Japan); D. Lazzati (IoA, Cambridge, UK); S. Ortolani 
(Univ.  of Padua, Italy); L. Pasquini (ESO, Germany); G. Ricker (MIT, USA);  
E. Le Floch, P. Goldoni, F. Mirabel (CEA, France) report:



In GCN 1498
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  we claimed that the polarization measurements performed by Barth 
et al. (GCN 1477
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 ) and our group on the GRB 020813 afterglow allow to single 
out "the most significant and larger degree of variability ever detected in 
the polarization level of a GRB optical afterglow".


However, according to the result of Bersier et al. (astro-ph/0206465) a large 
amount of variability in the polarization level could have been present in 
GRB 020405 if compared to the polarization level measured again by our own 
group (Covino et al., GCN 1431
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 ).


In this case, the measurements performed for GRB 020813 are only a 
confirmation for the large variability in a short time scale (~24 hours) in 
the polarization level of a GRB optical afterglow.




This message may be cited.

T. Kawabata (BAO), Y. Urata (Titech / RIKEN), H. Yamaoka (Kyushu U)
report:

We have obtained 36 R band images (each exposure time 60 seconds) of the
afterglow of GRB020813 (Fox, Blake & Price, GCN #1470
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 ) with the Bisei
Astronomical Observatory (BAO) 1.01-m telescope during 2002 Aug. 13
11:44 to 12:40 UT. A combined image of all exposures gives R = 19.35 +/-
0.13 using r magnitudes of near USNO_A2.0 stars as photometric
references.

A combined image can be found at
http://www.town.bisei.okayama.jp/bao/astro/grb/grb020813.jpg

This message may be cited.

D. Malesani and S. Covino (INAF, Merate Obs., Milan), D. Fugazza and R.
Barrena (TNG), E. Pian and N. Masetti (IASF/CNR, Bologna), on behalf of
a larger collaboration, report:


We observed the optical counterpart of GRB 020813 on Aug 13.99, 15.04
and 16.03 UT, using the VLT and TNG telescopes and a standard Bessel V
filter. The source is clearly detected and it shows a fading by 1.04 +/-
0.05 magnitudes between the first and the second epoch, and by 0.62 +/-
0.10 magnitudes between the second and third epoch. The afterglow is
hence decaying with time according to a sharply defined power-law with a
slope of delta = -1.4 +/- 0.02.

The break in the decay suggested in GCN #1476
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  (Bloom, Fox & Hunt) and
#1491 (Li, Chornock & Filippenko) is therefore confirmed.

Complete analysis of the photometric data is underway.

This message can be cited.

S. Covino, D. Malesani, G. Ghisellini, P. Saracco, G. Tagliaferri, F.
Zerbi (Observ. of Brera, Milan, Italy); S. Di Serego, A. Cimatti, M.
Della Valle (Observ. of Arcetri, Florence, Italy); F. Fiore, G.L.
Israel, L. Stella (Observ. of Monte Porzio, Rome, Italy); M. Vietri
(Univ. Rome 3, Italy); N.  Kawai (Tokyo Tech, Japan); D. Lazzati (IoA,
Cambridge, UK); S. Ortolani (Univ.  of Padua, Italy); L. Pasquini (ESO,
Germany); G. Ricker (MIT, USA); E. Le Floch, P. Goldoni, F. Mirabel
(CEA, France) report:


We observed the optical counterpart to GRB020813 (Villasenor et al., GCN
1471
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 ; Fox, Blake & Drake, GCN 1470
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 ) between August 13.994 and August
14.148 (22.9 to 24.8 hours after the GRB trigger). The observations were
performed with the ESO VLT-3 (Melipal) telescope equipped with FORS1
with a Bessel V band filter in the imaging polarimetry mode. The
transient source is clearly detected in the acquisition image.

We found linear polarization at the level of P = (1.17 +/- 0.16)% with
position angle (158 +/- 4) degrees (uncertanties are 1-sigma errors).

Once we also remove the effect of ISM in our Galaxy measuring the
polarization of field stars, the intrinsic polarization of the optical
transient turns out to be P = (0.80 +/- 0.16)% and P.A.= (144 +/- 6)
degrees.

The detected polarization level is significantly lower (~6 sigma) than
the previous one measured by Barth et al. (GCN 1477
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 ) at UT 13.31 while
the position angle remains constant to within the errors.

This is therefore the most significant and larger degree of variability
ever detected in the polarization level of a GRB optical afterglow and
confirms that the detected polarization is related to the afterglow
emission and not induced by intervening matter.

Such a degree of variability is predicted in current models for beamed
afterglows (Ghisellini & Lazzati, 1999, MNRAS, 309, L7) and allows us to
predict that the jet break occurred ~one day after the GRB event.
According to these models, the polarization angle should then rotate by
90 degrees and reach a peak up to ~10% around Aug 17.0 UT. Further
polarization measurements are strongly urged to test such models.

This message is citeable.

F. Bertoldi (MPIfR Bonn), D.A. Frail (NRAO), A. Weiss (IRAM Granada),
K.M. Menten (MPIfR Bonn), S. Kulkarni (Caltech), E. Berger (Caltech) 
report:
 
The afterglow of GRB 020813 (Fox et al., GCN 1470
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 ) was observed 
at 250 GHz (1.2 mm) with the 37 channel Max-Planck Millimeter Bolometer
(MAMBO) array (80 GHz bandwidth, 10.7 arcsec HPBW) at the IRAM 30 m
telescope on Pico Veleta (Spain), at the position reported by Rhoads
et al. (GCN 1474
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 ). 

The observation dates, average elevations, 250 GHz zenith opacities,
on-sky integration time, and (1/rms^2 weighted) average flux densities
are listed in the following table:

date    UT           EL   tau_z  t_int  flux [mJy]
-----------------------------------------------------
Aug 13, 19:10-21:10  32d   0.50  2950s  1.45 +-1.15
Aug 14, 23:10-23:55  31d   0.39  1260s  1.08 +-1.39

                         total:  4210s  1.30 +-0.89

Given the high line of sight opacity we were not able to detect
the GRB afterglow at sufficient significance.
Our flux density limits are consistent with those found by Bremer
et al. (GCN 1487
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 ) at 232 GHz, -0.63 +-2.06 mJy. 

This message may be quoted.

Mike Gladders (Carnegie Observatories) and Pat Hall
(Princeton/Catolica) report:

"Baade 6.5m (Magellan I) observations with the TEK5 camera of the
field of GRB020813 acquired on the nights of August 13 and 14,
starting at 13 August 5.76583 UT, do not show any evidence for
extended emission coincident with the OT position. The OT first
reported by Fox et al. (GCN 1470
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 ) and confirmed as fading by us (GCN
1472
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 ) is detected as a point source in all available images. In the
best-seeing late-time images, detailed below, the PSF of the OT is
indistinguishable in all filters from that of other nearby point
sources of similar magnitude. In these excellent seeing images, the
nearest object is a star 3".86 almost due N of the OT, and presumably
the possible associated object reported in GCN 1491
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 . This star has a
similar magnitude in I to the OT, but is much redder, and has a
fainter companion of similar color 0".99 away that could cause it to
appear extended in more typical ground-based images."

Filter  Start UT        Int. Time       Seeing
I       14 Aug 1.0761   60 sec          0".305
R       14 Aug 1.2364   60 sec          0".304
V       14 Aug 1.3653   60 sec          0".352
B       14 Aug 1.2064   60 sec          0".396

This message may be cited.

GRB020813(=H2262): Revised Localization with HETE Soft X-ray Camera (SXC)

J.G. Jernigan, R. Vanderspek, J. Villasenor, G. Monnelly, J. Doty, G. 
Crew, N. Butler, T. Cline, A. Levine, F. Martel, E. Morgan, G. 
Prigozhin, G. Azzibrouck, J. Braga, R. Manchanda, and G. Pizzichini, 
on behalf of the HETE Optical-SXC and HETE Operations Teams;

G. Ricker, J-L Atteia, N. Kawai, D. Lamb, and S. Woosley on behalf of 
the HETE Science Team;

Y. Shirasaki, C. Graziani, M. Matsuoka, T. Tamagawa, K. Torii, T. 
Sakamoto, A. Yoshida, E. Fenimore, M. Galassi, T. Tavenner, and T. 
Donaghy, on behalf of the HETE WXM Team;

M. Boer, J-F Olive, J-P Dezalay, and K. Hurley on behalf of the HETE 
FREGATE Team;

write:

Analysis of the full data set derived from the HETE Soft X-ray Camera 
(SXC) has resulted in a revised location for GRB020813(=H2262; 
Villasenor et al, GCN Circular #1471
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 ). The revised SXC location can 
be expressed as a 90% confidence circle that is 50 arcseconds in 
radius (due entirely to systematic errors) and is centered at:

RA = 19h 46m 41.8s, Dec = -19o 35' 39" (J2000)

We conclude that the Fox et al (GCN Circular #1470
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 ) afterglow 
candidate for GRB020813 lies 26 arcseconds from the SXC location, 
well within the error circle reported here.

Further information regarding GRB020813 is provided at the following URL:

http://space.mit.edu/HETE/Bursts/

This message is citable.

G.G.Williams (Steward Observatory), C.Blake (CalTech/Princeton),
Dieter Hartmann (Clemson), and the S-LOTIS
collaboration report:

The error box of GRB020813 (HETE Trigger 2262, GCN 1471
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 ) was observed
in R band with the 0.6m Super-LOTIS telescope, located at Kitt Peak,
beginning at 4.42 UT on August 13, 2002.  In total, 110 individual 60s
images were taken.  By coadding the first 9 images, taken between 4.42
and 4.62 UT, the OT reported by Fox et al. (GCN 1470
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 ) was detected at
the 3 sigma level.  This represents the earliest detection of the OT
through a standard photometric filter.  Using F band photographic
magnitudes from the GSC2.2, the magnitude of the OT was determined by
comparison to several nearby stars.  We report an R band magnitude of
18.38+/-0.38 at UT 4.51.  This magnitude is consistent with a decay
slope of approximately -1 to the later-time R band data reported by
Masi (GCN 1484
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 ), Urata et al. (GCN 1485
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 ), and Kiziloglu et al. (GCN
1488
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 ).  Analysis of the rest of the S-LOTIS data is in progress.

========================================= 
OT 19:46:41.874 -19:36:04.81 (J2000)     
=========================================
R=18.38+/-.38 at UT 4.51 August 13, 2002.
=========================================


This message may be cited.

W. D. Li, R. Chornock, and A. V. Filippenko (UC Berkeley) report on
behalf of the Lick Observatory and Tenagra Observatory Supernova
Search (LOTOSS; see IAU Circ. 7906):

"We have obtained additional observations of the optical afterglow of GRB020813
with the 0.8-m Katzman Automatic Imaging Telescope (KAIT) at Lick Observatory.
We continue to detect the object first reported by Fox et al. (GCN 1470
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 ) and
also observed by us (GCN 1473
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 ).  An unfiltered observation (600 s) obtained at
14 Aug 04:36 UT shows an extended object at the position of the afterglow.
Another image (600 s unfiltered) obtained at 06:56 UT under better conditions
shows two unresolved objects at that position separated by about 3.7".  We
identify one of these objects with the fading GRB afterglow, and suggest that
the other object is a possible host galaxy (although it could be an unrelated
faint object).  We measured the following unfiltered magnitudes, in addition to
those reported in GCN 1473
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 :

13 Aug 8.3542 UT, mag 18.55 +/- 0.05
14 Aug 4.5972 UT, mag 20.55 +/- 0.25 (host?+GRB)
14 Aug 6.9333 UT, mag 21.08 +/- 0.30 (GRB only) host? = 20.70 +/- 0.25.

We note that the first and third observations imply a power-law decay index
of about -1.44.  This is substantially steeper than the decay rate implied by 
the early observations (GCN 1473
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 , 1474
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 ), supporting the hypothesis of Bloom et 
al. (GCN 1476
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 ) that the object may have undergone a temporal break."

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D. A. Frail (NRAO) and E. Berger report on behalf of the
Caltech-NRAO-CARA GRB collaboration:

"On 2002, August 14.36 UT we made a short observation toward the
optical afterglow candidate reported by Fox et al. (GCN 1470
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 ). We
detect a 0.3 mJy radio source coincident with the position of the
optical source. Further observations with the VLA are planned."

This message may be cited.

U. Kiziloglu, A. Alpar, A. Baykal, S. Y. Kaan, A. Ankay, (METU); 
O. Huseyin, (AU);  O. Terekov, R. Sunyaev, A. Tkachenko, D. Denissenko, (IKI);
I. Bikmaev, N. Sakhibullin, V. Suleymanov,  (KSU); I. Khamitov, (TUG)
reports:

We have observed the optical transient (OT) of GRB020813 (HETE Trigger #2262; 
GCN 1471
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 ) with TUG's (TUBITAK National Observatory, Turkey) RTT150 1.5m 
telescope and SDSU camera on 13th August 2002, with  1.0 arcsec seeing.

We also confirm the presence of the transient reported by Fox, Blake & Price
(GCN 1470
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 ).

A combined image of eight R-band exposures (sums up to 24 minutes)
centered at 20:40 UT (almost 18 hours after the event) gives R=20.0+/-0.2,
using USNO-A2 magnitude estimates. Analysis of the full data set is underway.

Combined image can be found at:
http://astroa.physics.metu.edu.tr/GRB020813/ .

This message may be cited.

Millimeter observations of GRB 020813
======================================
The burst has been observed with the IRAM Plateau de Bure Interferometer 
in a five-antenna compact configuration from August 13, 21:13 UT to 
August 14, 00:58 UT under good meteorological conditions, on the 
position given in GCN 1474
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  : (EQ 2000) 19:46:41.865 -19:36:04.76 .
The source was not detected.

Results of UV plane fits fixed on the phase center:

Frequency       Flux and 1 sigma error            Beam size
----------------------------------------------------------------------
 89.188 GHz :  -0.13 (+-0.37) mJy/beam    15.6" by 6.5" at PA -158 deg
232.032 GHz :  -0.63 (+-2.06) mJy/beam     6.5" by 2.6" at PA   27 deg

No other source was detected above the 3 sigma level within the 
half-power width of the primary beams (55.5" at 89.188 GHz and 
31.3" at 232.032 GHz).

  Michael Bremer (IRAM) and Alberto J. Castro-Tirado (IAA-CSIC)

Y. Urata (1,2), T. Miyata (3), S. Nishiura (3), Y. Nakata (3), T. Aoki
(3), T. Soyano (3), K. Tarusawa (3), H. Mito(3), A. Yoshida (1,4), 
T. Tamagawa (1) 
1: RIKEN, 2: Titech, 3: Tokyo Univ. 4:AGU

 We have observed the optical transient (OT) of GRB020813 (Fox, Blake
& Price, GCN #1470
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 ) with the KISO observatory 1.05 m Schmidt
telescope.  We obtained four data sets for each B,V,R,I band during
2002 Aug. 13 10:52 to 16:46 UT.

 We detected the OT in the first data set of B (11:58-12:17 UT) ,
R(10:52-11:11 UT), I (11:14-11:33 UT). Due to the bad weather
condition, we could not detect it in V band. A preliminary analysis
suggests that the OT is at R=19 in comparison with the USNO-A2.0 star
(U0675_34232257).  Analysis of the full data set is underway.

These images can be found at
http://cosmic.riken.go.jp/urata/GRB/GRB020813/ .

This message may be cited.

G. Masi, F. Mallia and U. Tagliaferri (Campo Catino 
Astronomical Observatory, Italy) report:

On Aug. 13.859 2002 UT, we imaged the field of GRB020813 
(GCN 1471
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 ) with our 0.8-m, f/8 reflector + CCD, assuming 
the position provided by Henden et al. (GCN 1478
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 ).  We find
the optical afterglow candidate (Fox, et al., GCN 1470
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 ) to
be clearly visible, with an R magnitude (based on USNO A2.0)
around 19.5.  The astrometry, using about 200 reference
stars from USNO A2.0, gives the following position:

RA= 19 46 41.89  Decl: -19 36 04.6 (J2000.0)

Mean residuals= 0.2" in both axes.

The image will be available later today at our website: 
web.tiscalinet.it/aoccsite

The photometry will be improved when secondary standards
become available.

K. Hurley and T. Cline, on behalf of the Ulysses, Konus, and HETE GRB teams,

E. Mazets and S. Golenetskii, on behalf of the Konus-Wind GRB team,

I. Mitrofanov, D. Anfimov, A. Kozyrev, M. Litvak and A. Sanin,
on behalf of the HEND/Odyssey GRB team,

W. Boynton, C. Fellows, K. Harshman, C. Shinohara and R. Starr,
on behalf of the GRS/Odyssey GRB team, and

G. Ricker, J-L Atteia, N. Kawai, D. Lamb, S. Woosley, J. Doty, R. Vanderspek, 
J. Villasenor, G. Crew, G. Monnelly, N. Butler, J.G. Jernigan, A. Levine, 
F. Martel, E. Morgan, G. Prigozhin, J. Braga, R. Manchanda, G. Pizzichini,
Y. Shirasaki, C. Graziani, M. Matsuoka, T. Tamagawa, K. Torii,
T. Sakamoto, A. Yoshida, E. Fenimore, M. Galassi, T. Tavenner, T. Donaghy,
M. Boer, J-F Olive, and J-P Dezalay, on behalf of the HETE GRB team, report:

Ulysses, Mars Odyssey-HEND, HETE-FREGATE, and Konus-Wind observed this
GRB (HETE 2262).  As observed by Ulysses, it had a duration of approximately 125
seconds, a 25-100 keV fluence of approximately  3.8E-05 erg/cm2, and a
peak flux of approximately  1.2E-06 erg/cm2 s over 0.50 seconds.

We have triangulated it to a preliminary, 3 sigma error box whose
approximate area is ~ 33. sq. arcmin. and whose coordinates are:

    RA(2000)                              DEC(2000)
 ERROR BOX CENTER:  19 h 46 m 38.65 s    -19 o 37 '   7.79 " 
 ERROR BOX CORNER 1: 19 h 46 m 40.11 s    -19 o 34 '  48.69 " 
 ERROR BOX CORNER 2: 19 h 46 m  4.26 s    -19 o 43 '  49.28 " 
 ERROR BOX CORNER 3: 19 h 47 m 13.28 s    -19 o 30 '  24.23 " 
 ERROR BOX CORNER 4: 19 h 46 m 37.21 s    -19 o 39 '  26.80 " 

This error box restricts both the HETE WXM and SXC error circles given
in GCN 1471
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 , and is consistent with the position of the OT reported in
GCN 1470
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 .  A map will be posted shortly at ssl.berkeley.edu/ipn3/020813.
For clarity, the Mars Odyssey-Konus annulus reported in GCN 1482
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  has
been omitted from the map.

This error box may be improved.

K. Hurley, on behalf of the Ulysses and HETE GRB teams,

T. Cline, on behalf of the Ulysses, HETE, and Konus-Wind GRB teams,

E. Mazets and S. Golenetskii, on behalf of the Konus-Wind GRB team,

I. Mitrofanov, D. Anfimov, A. Kozyrev, M. Litvak and A. Sanin,  
on behalf of the HEND/Odyssey GRB team,

W. Boynton, C. Fellows, K. Harshman, C. Shinohara and R. Starr, 
on behalf of the GRS/Odyssey GRB team, and

G. Ricker, J-L Atteia, N. Kawai, D. Lamb, S. Woosley, J. Doty, R.
Vanderspek, J. Villasenor, G. Crew, G. Monnelly, N. Butler, J.G.
Jernigan, A. Levine, F. Martel, E. Morgan, G. Prigozhin, J. Braga, R.
Manchanda, G.  Pizzichini, Y. Shirasaki, C. Graziani, M. Matsuoka, T.
Tamagawa, K. Torii, T. Sakamoto, A. Yoshida, E. Fenimore, M. Galassi,
T. Tavenner, T. Donaghy, M. Boer, J-F Olive, and J-P Dezalay, on behalf
of the HETE GRB team, report:

Konus-Wind and Mars Odyssey-HEND observed this burst (HETE 2262, GCN
1471
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 ).  (Ulysses data are being downlinked and should become available
within several hours).  The triangulation annulus is centered at RA,
Decl(2000) = 322.225, -16.080, and has a radius of 24.559 +/- 0.040
degrees.  The center line of this annulus lies approximately 28
arcseconds from the optical transient reported by Fox et al. (GCN
1470
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 ).  Further refinements to this triangulation are possible.  This
localization is consistent with, and constrains, the HETE WXM error
circle; although it does not constrain the HETE SXC position, it serves
as a good calibration for the IPN, which should ultimately allow us to
constrain systematic uncertainties.

A map will be posted shortly at ssl.berkeley.edu/ipn3/020813.

E. Rykoff, D. Smith on behalf of the ROTSE Collaboration, report:

"ROTSE-IIIa responded automatically to GRB020813 (HETE trigger 2262) and started 
imaging at 13 August 2002 02:48:48.50 UT, 4.48 minutes after the start of the 
burst, and 15 seconds after receipt of GRB coordinates from the GCN. This 
response was during early twilight at Los Alamos National Laboratory, and our 
first several images were saturated by bright sky. Our first usable exposure, 60 
seconds in duration beginning at 03:02:36.28, shows no optical transient to an 
unfiltered limiting magnitude ~ 16.0 under adverse conditions. Our typical limit 
is several magnitudes deeper. This limit is around 0.5 magnitude brighter than 
the extrapolation of the decay of the OT as reported by Li, et. al. (GCN 
circular 1473
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 )."

This message may be cited.

A. Henden (USRA/USNO) and H. Guetter (USNO),
on behalf of the USNO GRB Team, report:

We have imaged the field of GRB020813 (GCN 1471
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 ),
containing the afterglow candidate reported by
Fox et al. (GCN 1470
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 ).  Two Ic-band exposures were made
with the USNO 1.55m Strand astrometric telescope, centered at
020813.2974 UT.  Rhoads et al. (GCN 1474
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 ) reported coordinates
using USNO-A2.0; we have independently derived the position
of the afterglow candidate using the UCAC2 astrometric catalog.
Our position is:

19:46:41.874  -19:36:04.81  (J2000)

with an estimated uncertainty of under 50mas in each
coordinate.

The 1.0m telescope is undergoing repairs, but should
be available starting UT 020815.  Our intention is to
calibrate this field at UBVRI shortly after this date
unless other calibration is published in the interim.

Spectropolarimetry of GRB 020813

A. J. Barth (Caltech), M. H. Cohen (Caltech), R. W. Goodrich (Keck), P.A.
Price (RASAA, ANU), J. S. Bloom (Harvard/CfA, Caltech), and D. W. Fox
(Caltech) report:

We have observed the afterglow of GRB 020813 (Fox, Blake, & Price, GCN
#1470
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 ) with the dual-beam LRIS spectropolarimeter on the Keck I 10 m
telescope. GCN #1475
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  discusses absorption features seen in these data. A
preliminary reduction of one hour of polarization data reveals significant
linear polarization of 3.0% +/- 0.1% at a p.a. of 166 +/- 1 degrees from
3500-5500 Ang., and 2.8% +/- 0.1% at p.a. 158 +/- 1 degrees from 6000-9000
Ang.  The fractional polarization is effectively flat and featureless with
wavelength and the polarization angle exhibits a slight decrease towards
the red.

This message may be cited.

GRB 020813 Afterglow Observations; Possible break

J. S. Bloom (Harvard/CfA, Caltech), D. W. Fox (Caltech) and M. P. Hunt
(Caltech) report:

"Using the Palomar 200 inch + LFC, we observed the afterglow of GRB 020813
(GCN #1470
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 ) starting 06:49:50 August 13, 2000 UT, a little over four hours
after the GRB trigger (GCN #1471
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 ). From that time, until 08:41:03 UT,
preliminary photometry indicates that the OT faded by 0.30 +/- 0.02 mag in
R(Steidel) band. A power-law decline in flux between these epochs was thus
-0.75. Given the shallower decline reported from earlier epochs (-0.55,
GCN #1474
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 ; -0.6, GCN #1473
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 ), the OT may have undergone a temporal break.
We note that a break this early in the light curve is typical of high
fluence, high energy events such as GRB 020813."

This message may be cited.

P.A. Price (RSAA, ANU), J.S. Bloom (Harvard/CfA, Caltech), R.W. Goodrich
(Keck), A.J. Barth (Caltech), M.H. Cohen (Caltech) and D.W. Fox
(Caltech) report:

We have observed the afterglow of GRB 020813 (Fox, Blake & Price, GCN
#1470
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 ) with LRIS in spectropolarimetry mode on Keck I at Aug 13.31 UT.
We identify at an absorption system of Mg II, Mg I, Ca II, Fe II, Mn II
at a redshift of z = 1.254 +/- 0.005.  We identify a second absorption
system at z = 1.222 +/- 0.005, based on Mg II, Mg I, Mn II.  We conclude
that the redshift of GRB 020813 is z >= 1.254.

This message may be cited.

James Rhoads (STScI), Matthew Holman (CfA), JJ Kavelaars (McMaster),
Andrew Fruchter (STScI), and Andrew Levan (STScI) report:

We observed the error circle of GRB 020813 (HETE Trigger #2262) with
the CTIO 4m Blanco telescope and Mosaic II imager starting at 020813
04:34 UT (110 minutes after the burst) and continuing for an hour.  We
obtained a total of ten 300 second images, four in B band and three
each in R and I bands.  The weather was good with subarcsecond seeing.

Preliminary analysis of the first image (a B band frame) confirms the
transient reported by Price et al (GCNC 1470).  Astrometric calibration
using 759 USNO-A2 stars brighter than R=16 places this image on a world
coordinate system.  We find coordinates of
 19:46:41.865 -19:36:04.76  (J2000.0) for the optical transient, with
an estimated error of 0.3" on each axis based on the 0.28" RMS residuals
of the USNO star positions.

Crude photometric calibration using the blue USNO-A2 magnitudes
of three nearby stars gives B=18.6 at 04:36 UT.
This B band detection immediately implies an upper limit z < 3.8
to the GRB redshift.
(The positions and adopted magnitudes of the reference stars were
 19:46:43.477 -19:36:05.66  B=17.10
 19:46:42.729 -19:36:06.65  B=17.20
 19:46:42.187 -19:35:37.00  B=15.90 .)
The third B band image, taken 14 minutes later, shows a decline of 0.07
magnitudes, corresponding to a rough decay slope of -0.55, consistent
with that reported by Li et al (GCNC 1473).  Analysis of the full data
set
is underway and will give both refined decay slopes and spectral slopes.

W. D. Li, A. V. Filippenko, and R. Chornock (UC Berkeley) report on
behalf of the Lick Observatory and Tenagra Observatory Supernova
Search (LOTOSS):

"We have observed a rectangle region of about 10' x 7' around the
position of GRB020813 (HETE Trigger #2262) with the 0.8-m Katzman
Automatic Imaging Telescope (KAIT) with 21 unfiltered exposures (30s,
120s and 300s) beginning on Aug 13 04:27 UT and lasted until 7:33 UT.
Comparison with DSS II images identified the apparent new object reported 
by Fox, Blake, & Price (GCN #1470
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 ), with a precise position measured
at RA = 19:46:41.89, Decl. = -19:36:04.5 (J2000).  The object is also
apparently fading with the following unfiltered magnitudes

Aug 13 4.4625 UT, mag 17.75
Aug 13 4.5200 UT, mag 17.77
Aug 13 4.7786 UT, mag 17.82
Aug 13 5.9683 UT, mag 18.10
Aug 13 7.5550 UT, mag 18.42
   
We therefore strongly suggest that this is the afterglow of GRB020813.
This photometry sequence is consistent with a power law of index
-0.6.  A finding chart of the object can be found at 
http://astron.berkeley.edu/~weidong/grb020813.gif."

This message may be cited.

Mike Gladders (Carnegie) and Pat Hall (Princeton/Catolica) report:

"We have observed the localization of GRB020813 (HETE Trigger #2262;
GCN 1471
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 ) with the Magellan Baade 6.5m telescope + TEK5 camera.
I-band images taken at 05:46 UT and 06:36 UT confirm the presence of
the transient reported by Fox, Blake & Price (GCN 1470
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 ) and
demonstrate an 0.13 mag fading of the source over this interval. A
very rough calibration to USNO-2 magnitudes puts the OT at about
I=18. More accurate photometry is underway."

J. Villasenor, C. Graziani, Y. Shirasaki, G. Ricker, D. Lamb, and S.
Woosley on behalf of the HETE Science Team;

R. Vanderspek, J. Doty, G. Crew, G. Monnelly, N. Butler, T. Cline, J.G.
Jernigan, A. Levine, F. Martel, E. Morgan, G. Prigozhin, G. Azzibrouck,
J. Braga, R. Manchanda, and G. Pizzichini, on behalf of the HETE
Operations and HETE Optical-SXC Teams;

N. Kawai, M. Matsuoka, T. Tamagawa, K. Torii, T. Sakamoto, A. Yoshida,
E. Fenimore, M. Galassi, T. Tavenner, and T. Donaghy, on behalf of the
HETE WXM Team;

J-L Atteia, M. Boer, J-F Olive, J-P Dezalay, and K. Hurley on behalf of
the HETE FREGATE Team;

write:


At 02:44:19.17 UTC (9859.17 s UT) on 13 Aug 2002, the HETE FREGATE,
WXM, and SXC instruments detected event H2262, a bright, long GRB.  The
WXM flight localization was correct and was reported in a GCN Position
Notice at 10:50:48 UT, 4 min 14 sec after the burst.  Ground analysis
of the WXM data for the burst produced a refined location, which was
reported in a GCN Position Notice at 04:36:58 UT, 117 minutes after the
burst.  The WXM location can be expressed as a 90% confidence circle
that is 4 arcminutes in radius (due entirely to the systematic error)
and is centered at

RA = 19h 46m 41s, Dec = -19o 38' 42" (J2000).


Ground analysis of the SXC data for the burst also produced a refined
location, which was reported in a GCN Position Notice at 05:48:35 UT,
184 minutes after the burst.  The SXC location can be expressed as a
90% confidence circle that is 60 arcseconds in radius (due entirely
to the systematic error) and is centered at

RA = 19h 46m 38s, Dec = -19o 35' 16" (J2000).


In the FREGATE 8-40 keV band, the burst had a duration of >125 seconds.
In the WXM 2-25 keV band, the burst also had a duration of >125
seconds.  The WXM localization SNR was >100.  The SXC localization SNR
was 12.

Further information (including a light curve) for GRB020812 is provided
at the following URL:

http://space.mit.edu/HETE/Bursts/

This message is citable.

D.W. Fox and C. Blake (Caltech) with P. Price (RSSA/ANU) report:  

"We have observed the localization of GRB020813 (HETE Trigger #2262)
with the Oschin/NEAT system for three 120s unfiltered exposures
beginning at 13 August 2002 04:37, 04:43, and 04:47 UT.  Inspection of
the images reveals a star-like object that is not present in DSS
images of the region.  The coordinates of the object are:

    RA 19:46:41.88, Dec -19:36:05.1 (J2000)

with a one-sigma uncertainty of 0.5 arcsec in each axis, remaining
constant over the time span of our exposures.  We suggest that this
object is the optical afterglow of GRB020813."