A Gamma-Ray Burst was detected by the BeppoSAX GRBM (BATSE trigger 7560) on
1999 May 10, 08:49 UT and localized with the WFC.
A follow-up NFI observation revealed a previously unknown bright X-ray source
which is assumed to be the X-ray afterglow.
- BeppoSAX GRB alert n. 99/06:
A GRB (GRB 990510) was detected by the GRBM and WFC of BeppoSAX on May 10,
around 8:49 U.T.
Preliminary coordinates from WFC are:
R.A.(2000)=204.691
DEC(2000)=-80.470
The error radius is about 6'
A follow-on with NFI is being done.
- BeppoSAX GRB alert n. 99/07 = GCN notice #304:
A GRB (GRB 990510) was detected by the GRBM and WFC of BeppoSAX on May 10,
around 8:49 U.T.
Final coordinates from WFC are:
R.A.(2000)=204.5248
DEC(2000)=-80.4925
The error radius is 3'.
A follow-on with NFI is being done.
- GCN notice #309
K. Hurley, on behalf of the Ulysses GRB team, and S. Barthelmy, on behalf
of the GCN team, report:
We have obtained a preliminary IPN annulus for GRB990510 (BeppoSAX GRB
ALERT GRB990510, BATSE 7560) using coarse time resolution BATSE/GCN and
Ulysses data. The annulus is centered at RA(2000)= 144.801 degrees,
Decl(2000)=-7.236 degrees, and has a radius of 78.074 +/- 0.034 degrees
(3 sigma). It intersects the BeppoSAX refined WFC error circle and
reduces its area. The intersection defines an ~4' x 6 ' error box
whose corners are:
RA(2000) Dec(2000)
13 h 38 m 51 s -80 o 31 ' 54 "
13 h 39 m 18 s -80 o 29 ' 51 "
13 h 37 m 05 s -80 o 31 ' 14 "
13 h 38 m 08 s -80 o 26 ' 33 "
An image may be found at
http://ssl.berkeley.edu/ipn3/990510. The IPN annulus
can be refined considerably.
- GCN notice #310
P.M. Vreeswijk, T.J. Galama, E. Rol (U. of Amsterdam), K. Pollard
(U. of Canterbury), J. Menzies (SAAO), P. Sackett (U. of Groningen),
K. Sahu (STScI), J. van Paradijs (U. of Amsterdam and U. of Alabama in
Huntsville), and C. Kouveliotou (USRA/MSFC) report on behalf of the
PLANET microlensing team and the Amsterdam/Huntsville GRB optical
follow-up team:
We have observed the error box of GRB 990510 (Dadina et al. 1999; IAU
Circular 7160) with the Sutherland 1.0m telescope (South Africa) in B
and R (several exposures of 1200 sec) on May 10.72 UT. Comparison of
the images with the DSS (2nd Epoch Survey of the UK Schmidt; RG610
filter) reveals a bright object at RA 13:38:07.62, DEC -80:29:48.8
(J2000; estimated positional uncertainy of about 2"), which is not
detected in the DSS. By comparison with a couple of USNO stars we
estimate R = 19.2 +- 0.3. We strongly urge further observations to be
made of this possible GRB counterpart."
A finding chart can be found at
http://www.astro.uva.nl/~titus/grb990510.html
and is reproduced below:
- GCN notice #311 = BeppoSAX MAIL n. 99/8
Luigi Piro (BeppoSAX Mission Scientist on behalf of the BeppoSAX team) report:
A BeppoSAX follow-up of GRB990510 started about 8 hr after the burst.
Preliminary analysis of the first two orbits of the MECS data at SOC shows
a previously unknown strong source in the center of the WFC error circle.
Preliminary coordinates are:
R.A.(2000)= 204.605
DEC(2000)= -80.490
The error radius is 1.5'
Considering its strength, this X-ray source is likely the X-ray
afterglow of GB990510. BeppoSAX is continuing its observation.
- GCN notice #312
K. Z. Stanek (Harvard-Smithsonian CfA) notices:
The proposed optical counterpart to GRB990510 (Vreeswijk et al., GCN
#310) lies at the Galactic coordinates of l=305.1175, b=-18.0990.
According to the all-sky reddening map of Schlegel et al. (1998; ApJ,
500, 525), at this position the expected E(B-V) reddening due to the
Galactic foreground is E(B-V)=0.227, i.e. rather considerable. This
corresponds to expected values of Galactic extinction A_U=1.13,
A_B=0.98, A_V=0.74, A_R=0.60 and A_I=0.44, for the Landolt CTIO
filters and standard reddening curve. This might influence planned
optical follow-up of GRB990510.
- GCN notice #313
T.J. Galama, P.M. Vreeswijk, E. Rol (U. of Amsterdam), N. Tanvir
(Institute of Astronomy, Cambridge, UK), E. Palazzi, E. Pian,
N. Masetti, F. Frontera (ITESRE, CNR, Bologna), K. Pollard (U. of
Canterbury), J. Menzies (SAAO), P. Sackett (U. of Groningen), K. Sahu
(STScI), J. van Paradijs (U. of Amsterdam and U. of Alabama in
Huntsville), and C. Kouveliotou (USRA/MSFC) report on behalf of the
PLANET microlensing team, and the Bologna and Amsterdam/Huntsville GRB
optical follow-up teams:
Comparison of European Southern Observatory 2.2m and SAAO Sutherland
1.0m telescope (South Africa) R-band observations, of the error box of
GRB 990510 (Dadina et al. 1999; IAU Circular 7160), shows that the
proposed optical counterpart to GRB 990510 (Vreeswijk et al., GCN
#310) is decaying in brightness. We obtain the following magnitudes
(measured with respect to the USNO star at RA = 13:38:00.82,
DEC=-80:29:11.7, for which we have assumed R = 17.2):
R mag err May (UT) Telescope
19.11 0.02 10.73 SAAO 1m
19.17 0.02 10.76 SAAO 1m
19.25 0.02 10.79 SAAO 1m
19.61 0.01 10.99 ESO 2.2m
The absolute uncertainty in the calibration is not included. The decay
is consistent with a power law, with temporal decay index -0.85 +- 0.04.
The light curve can be found at
http://www.astro.uva.nl/~titus/grb990510.html
and is reproduced below:
- GCN notice #314
J. Kaluzny (Warsaw Univ. Obs.), P. M. Garnavich, K. Z. Stanek
(Harvard-Smithsonian CfA), W. Pych (Warsaw Univ. Obs.) and I. Thompson
(Carnegie Obs.) report:
We measured the object at RA 13:38:07.64, Decl -80:29:48.8 (J2000)
(coordinates based on the GSC catalog), reported by Vreeswijk et
al. (GCN 310) to be a possible optical counterpart to GRB 990510 in
our R-band images taken with the 1.0-meter Swope telescope at the Las
Campanas Obs. We find that the object declined by 0.34 mag over 4.6
hours beginning May 10.995 (UT) in the R-band. The data is consistent
with a power-law decline with decay index of 0.89, obtained by fitting
combined data of Galama et al. (GCN 313) and ours. The comparison
star (end figures of 00.82, 11.7) assumed by Galama et al. to be
R=17.2 is actually given in the USNO A2.0 catalog as R=16.5. We find
the R magnitudes in this region of the USNO catalog to be of dubious
quality, especially fainter than 16.5. It is important to obtain an
independent photometric calibration for this field.
Adding seven 300s exposures in R with approximately 1" seeing reveals
an object 1.8" south of the OT and about 3 magnitudes fainter which
may be the host galaxy.
Compared to nearby field stars, the OT appears significantly
bluer by approximately 0.4 mag in V-R color.
The R-band lightcurve and the combined image of the field are
available at
http://cfa-www.harvard.edu/~peterg/grb.html.
- GCN notice #315
Tim Axelrod, Jeremy Mould, and Brian Schmidt (Research School of Astronomy
and Astrophysics, The Australian National University) report
the following
optical photometry of GRB990510 using
the Mount Stromlo 50inch + Macho Camera (measured with respect to the USNO
star at RA = 13:38:00.82, DEC=-80:29:11.7 for which we have assumed
R = 17.2, cf. Galama et al GCN 313). The following observations are Macho R
(effective lambda = 700nm), but transform almost identically to R_c.
R mag err May (UT) Telescope
18.24 0.02 10.514 MSO 50inch
18.31 0.02 10.522 MSO 50inch
18.30 0.02 10.529 MSO 50inch
19.23 0.07 10.775 MSO 50inch
19.31 0.07 10.783 MSO 50inch
19.25 0.04 10.791 MSO 50inch
The absolute uncertainty in the calibration is not included. The decay
is consistent with a power law, with temporal decay index -0.88 +- 0.03.
Simultaneous observations in Macho-B (effective lambda = 510nm)
show a powerlaw decay of index -0.94 +- 0.04.
- GCN notice #316
G. Pietrzynski and A. Udalski (Warsaw University Observatory) report on
behalf of the OGLE microlensing survey team:
We monitored the optical counterpart of GRB 990510 (Vreeswijk et al.
1999, GCN 310) starting on May 10.992 UT, 1999 with the 1.3-m Warsaw
telescope at the Las Campanas Observatory (Chile). In total 17 V-band,
21 I-band frames were collected, covering about 10.25 hours. Exposure
time was 900 sec and 600 sec for the V and I-band frames, respectively.
The object is apparently variable -- its brightness faded by about 0.6
mag in the course of the night: from 19.45. to 20.05 in the V band and
18.50 to 19.15 in the I-band. Standard VI photometry of three, well
separated nearby constant stars (uncertainty +/-0.03 mag) is:
Delta X Delta Y \alpha_2000 \delta_2000 V I
from GRB position
Star 1 33.4"E 43.9"S 13:38:20.56 -80:30:31.9 15.617 14.636
Star 2 59.8"W 21.0"N 13:37:43.48 -80:29:26.7 16.203 15.161
Star 3 16.5"W 36.7"N 13:38:00.82 -80:29:11.5 17.014 16.094
Photometry of the optical counterpart of GRB 990510 and light curves are
available from the OGLE Internet archive:
http://www.astrouw.edu.pl/~ftp/ogle
- GCN notice #317
L. Amati, F. Frontera (ITESRE/CNR, Bologna), E. Costa, M. Feroci
(IAS/CNR, Rome), on behalf of the BeppoSAX/GRBM team, report:
GRB990510 was detected by the BeppoSAX Gamma Ray Burst Monitor (see
also IAUC #7160) as a bright, complex gamma-ray burst composed by two well
separated and multi-peaked pulses with a total duration of about 75 s. The
GRB fluence in the 40-700 keV energy range is (1.9 +/- 0.2) x 10E-5 erg
cmE-2, while its peak flux (integrated on 1 s, same energy band) is (2.4
+/- 0.2) x 10E-6 erg cmE-2 sE-1. For comparison, the peak flux in the
2-28 keV range as measured by the BeppoSAX/WFC N. 2 (IAUC #7160) is
1.4 x 10E-7 erg cmE-2 sE-1. The fluence of the event is the highest,
among the BeppoSAX localized events, after GRB990123, GRB980329, and
GRB970111. The burst shows typical hard-to soft spectral evolution with an
average power law photon index of 1.8 +/- 0.1 in the 70-650 keV energy
band.
- GCN notice #318
K. Z. Stanek, P. M. Garnavich (Harvard-Smithsonian CfA), J. Kaluzny,
W. Pych (Warsaw Univ. Obs.) and I. Thompson (Carnegie Obs.) report:
We continued R-band observations with the 1.0-meter Swope telescope
at the Las Campanas Obs. of the optical transient associated with the
GRB 990510 on May 12.0 (UT). We find the OT declined by 1.4 mag since
May 11.0, consistent with a power-law decay index of -1.36,
considerably steeper than the index of -0.86 found from observations
between May 10.7 and 11.0 (Galama et al. GCN 313; Axelrod et al. GCN
315). Compared to the star at RA 13:38:00.82 Dec -80:29:11.7 assumed
to be R=16.5 (USNO A2.0 catalog), we find the OT to be R=20.3 on May
12.0 (UT). An updated light curve is available at
http://cfa-www.harvard.edu/~peterg/grb.html.
- GCN notice #319
G. Pietrzynski and A. Udalski (Warsaw University Observatory) report on
behalf of the OGLE microlensing survey team:
Observations of the optical counterpart of GRB 990510 collected with the
1.3-m Warsaw telescope at the Las Campanas Observatory (Chile) on May
11/12, 1999 indicate that the object faded smoothly to V=21.2 and I=20.3
on May 12.4 UT.
Single observation in the B-band collected on May 11.3607 UT yields the
following colors of the GRB990510 counterpart: B=20.47+/-0.05,
B-V=0.54+/-0.06 and V-I=0.88+/-0.04. This indicates significantely
different spectral distribution as compared to regular stars.
The nearby galaxy, mentioned by Kaluzny et al 1999 GCN #314, is clearly
visible on collected frames.
Updated photometry of the optical counterpart of GRB 990510 and light
curves are available from the OGLE Internet archive:
http://www.astrouw.edu.pl/~ftp/ogle.
- GCN notice #320
J. Hjorth (Copenhagen), I. Burud (Liege), A. Pizzella (ESO Chile),
H. Pedersen (Copenhagen), A. O. Jaunsen (Oslo), B. Lindgren (Copenhagen)
report:
Thirty-one 300-sec R-band images of the optical transient (OT) related to
GRB 990510 (GCN #310, 312, 313) were obtained with the DFOSC at the Danish
1.54-m telescope on La Silla between 11.14 May and 11.37 May 1999 UT. The
seeing FWHM ranged from 1.2" to 1.6". An astrometric plate solution (USNO-A2.0)
yielded the OT coordinates RA = 13:38:07.11, Dec = -80:29:48.2 (J2000) with an
uncertainty of +- 0.44". Photometry was carried out using the deconvolution
code described by Magain, Courbin & Sohy (ApJ, 494, 452, 1998). Simultaneous
deconvolution of the 31 images resulted in a light curve with an rms scatter
of 0.016 mag. The lightcurve is consistent with a power law decay with index
-1.27 in this small interval. The combined lightcurve including data from
Axelrod et al. (GCN #315), Galama et al. (GCN #313) and Pietrzynski & Udalski
(GCN #316) is inconsistent with a single power law. Our results thus confirm
the steepening of the light curve noted by Stanek et al. (GCN #318). The faint
object 2.05" south and 0.56" east of the OT is clearly seen on the deconvolved
image. The object does not appear extended towards the OT. Images, deconvolved
images and light curves are posted at
http://www.astro.ku.dk/~jens/grb990510/ .
- GCN notice #321
S. Covino, D. Fugazza, G. Ghisellini, D. Lazzati, of the Observatory
of Brera (Milan, Italy) report:
We have obtained R=18.96+-0.02 for the OT of GRB990510,
observed with 3x10 second exposures of VLT-FORS1 at May 11.0468.
This estimate is based on the USNO star at RA = 13:38:00.82,
DEC=-80:29:11.7, for which we have assumed R = 16.5.
The faint object 2" south of the OT is also visible, with
approximately R=21.9+-0.2 (see GCN 314).
- GCN notice #322
R. M. Kippen (University of Alabama in Huntsville) reports on behalf
of the BATSE GRB team:
GRB 990510 was detected by BATSE on 1999 May 10.367434 as trigger
number 7560. The event was strong and consisted of a complex series
of pulses with two major episodes lasting >100 s, with significant
spectral evolution. The T50 and T90 durations are 32.64 (-/+ 0.45) s
and 67.58 (-/+ 1.86) s, respectively. The burst's peak flux (50-300
keV; integrated over 1.024 s) and fluence (>20 keV) are 8.16 (-/+
0.08) photons cmE-2 sE-1 and 2.56 (-/+ 0.09) x 10E-5 erg cmE-2,
respectively---ranking it in the top 4% (9%) of the BATSE burst flux
(fluence) distribution. The average spectral hardness of the burst,
as estimated by the ratio of 100-300 keV counts to those in the 50-100
keV range, is H32 = 0.764 (-/+ 0.008), which is average among BATSE
bursts of this duration. The BATSE burst location is consistent with
those measured by BeppoSAX (GCN 304,311) and the IPN (BATSE/Ulysses;
GCN 309), and with the proposed optical transient counterpart (GCN
310, 313-321). A location sky-map and lightcurve for this event (and
other notable bursts) are available at the BATSE Rapid Burst Response
world-wide-web site:
http://www.batse.msfc.nasa.gov/~kippen/batserbr/
- GCN notice #323
J. S. Bloom, S. R. Kulkarni and S. Djorgovski California Institute of
Technology; D. A. Frail, NRAO; T. S. Axelrod, J. R. Mould, B. P. Schmidt
The Australian National University report:
We have observed a number of Landolt Stars on May 11 under photometric
condition with the MSO 50inch. Based on these observations we report
the following magnitudes for the secondary stars discussed in GCN 316:
Offset from GRB RA (J) Dec (J) R V sig
Star 1 33.4"E 43.9"S 13:38:20.56 -80:30:31.9 15.09 15.58 0.03
Star 2 59.8"W 21.0"N 13:37:43.48 -80:29:26.7 15.62 16.19 0.03
Star 3 16.5"W 36.7"N 13:38:00.82 -80:29:11.5 16.50 16.99 0.03
At the time of these observations, the OT and these stars have very
similar colors and we have transformed both MachoR and MachoV to
standard R_C and V magnitudes from color transformations determined
from the Landolt Standard stars. The corrections from VM->V and RM->R_C
are less than 0.02 magnitudes in all cases, and are invariant in time,
because the color of the OT is not varying significantly.
Star 3 is the reference star used by Galama et al. (GCN 313) and we
note that our new determination is 0.7 mag brighter than the value
assumed by Galama et al. and Axelrod et al. (GCN 315). Our analysis
reported below takes into account this new calibration.
We report the following new measurements:
DATE (UT) V Verr R Rerr
May 11.508 20.11 0.09 19.67 0.07
May 11.512 20.01 0.08 19.71 0.06
May 11.516 20.06 0.07 19.76 0.09
As noted earlier (GCN #318; GCN #320) analysis of the R-band light
curve shows steepening of the initially observed power law decay. We
model the flux in each band with the following analytic 4-parameter
function:
F_nu(t) = [f_* x (t/t_*)^alpha1] x [1 - exp(-J)]/J
where
J(t,t_*,alpha1,alpha2) = (t/t_*)^(alpha1 - alpha2).
The principal virtue of this formulation is that the asymptotic
power law indices are alpha1 (at early times) and alpha2 (at late
times).
We have fitted this function to the MSO V and R band data of May 10 and
May 11 and the R and I band data reported in earlier GCNs. Remarkably,
the flux in V, R, I-bands are all consistent with same set of shape
parameters, differing only by the flux normalization f_*:
alpha1 = -0.88 (+/- 0.02)
alpha2 = -2.5 (+/- 0.3)
t_* = 1.55 days (+/- 0.05)
The consistency of alpha1, alpha2 and t_* between the different bands
means that the break is wide band. This is the first clear observation
of a wide band break. A break due to electron cooling is strongly
chromatic and the expected difference in asymptotic slopes would be
small: alpha1 - alpha2 = 0.25. The simplest interpretation is that we
are seeing evidence for a spreading jet.
We assume that the optical band is below the cooling frequency given
the relatively flat spectrum (see below). If so, application of
standard afterglow models (Sari, Piran & Halpern 1999; astroph/9903339)
we deduced from the measured alpha1 that the electron energy spectral
index is p=2.2. In the simplest models for spreading jets (Rhoads
1999, astroph/9903399; Sari, Piran, Halpern 1999), we expect alpha2 = p.
The observed value of alpha2 is consistent with this expectation.
Future observations of the flux will define alpha2 better and the
consistency between alpha2 and p can be tested more rigorously.
However, as with the case of GRB 990123, the frequency spectral index
is not consistent with theoretical expectations. After correcting for
Galactic extinction (GCN 312) the spectral index in the optical (V,R)
is nearly 0 on May 11.
- GCN notice #324
P.M. Vreeswijk, T.J. Galama, E. Rol, B. Stappers (U. of Amsterdam),
E. Palazzi, E. Pian, N. Masetti, F. Frontera (ITESRE, CNR, Bologna),
J. van Paradijs (U. of Amsterdam and U. of Alabama in Huntsville),
C. Kouveliotou (USRA/MSFC) and H. Boehnhardt (ESO) report on behalf of
the Amsterdam/Huntsville and BeppoSAX GRB optical follow-up teams:
Three 10-min red grism and three 10-min blue grism low resolution
spectra covering 3300-11000 Angstrom, were taken of the optical
counterpart to GRB 990510 (Vreeswijk et al.; GCN #310) with the
European Southern Observatory (ESO) VLT-UT1 telescope, starting May
11.21 UT. We identified the following ultraviolet absorption lines:
Fe II (2344 and 2600 Angstrom), Mg II (blend of 2796 and 2803). These
lines are redshifted by z = 1.619 +- 0.002 (this may be a lower limit
to the redshift of the GRB source). On the basis of this redshift we
also find some weaker features, such as Al III (1863), Cr II/Zn II
(2062), and Mg I (2852). No strong emission lines were detected.
Assuming isotropic emission, z = 1.619, H0 = 70 km/s/Mpc and
Omega0=0.3, we find a (> 20 keV) energy output of 1.4x10^{53} ergs,
based on the BATSE fluence (Kippen et al.; GCN #322).
- GCN notice #325
D. Lazzati, S. Covino and G. Ghisellini, of the Observatory of Brera
(Milan, Italy) report:
In the 600 s VLT-FORS1 image taken at May 11.13509 with 1.2" seeing, the
faint source 2.1" south of the OT of GRB990510 is completely consistent
with being a pointlike object, 2.86+-0.02 mag (in the R band) fainter
than the source located 3.9" north, 0.8" west of the OT.
At this time the latter source and the OT had the same magnitude,
R=19.10+-0.02 (assuming R=16.5 for the USNO star at RA = 13:38:00.82,
DEC=-80:29:11.7).
This suggests that the faint source is not the host galaxy of the GRB.
See in http://www.merate.mi.astro.it/~lazzati/GRB990510/ the original
image, the image with the OT subtracted, and the residuals after having
subtracted also the faint object, assuming it is a point source.
- GCN notice #326
E. Kuulkers, J. Heise (SRON, Utrecht), L.A. Antonelli (Osservatorio
Astronomico di Roma), E. Costa, L. Piro (IAS, CNR, Rome), M.R. Daniele,
S. Rebecchi (SDC, Telespazio, Rome), G. Scotti (SOC, Telespazio, Rome),
G. Gennaro (OCC, Telespazio, Rome), F. Frontera (University of Ferrara,
Ferrara), report:
The BeppoSAX NFIs observed the region of GRB990510 (see also GCN 311) from
May 10.70 to May 12.22 UT, i.e. 8 to 44.5 hours after the BATSE trigger,
with a total MECS on source exposure time of 68 ksec.
We confirm that the strong X-ray source reported in GCN 311 is the X-ray
afterglow, and is designated as 1SAX J1338.1-8030. The position as derived
from the MECS observations (RA = 13 38 11, Dec = -80 29 58, J2000, 1
arcmin error radius) is consistent with both the WFC GRB position (IAUC
7160) and that for the optical afterglow source (GCN 310). The X-ray
afterglow decay light curve is not unlike that seen in previous X-ray
afterglow decays. We note that a previously uncatalogued weak (constant)
X-ray source lies about 3 arcmin away from the X-ray afterglow source,
with coordinates RA = 13 37 51, Dec = -80 26 53 (J2000, 1 arcmin error
radius), which we designate 1SAX J1337.8-8027.
GRB990510 imaged with the MECS instrument (1.6-10 keV).
The previously unknown fading source was found near the centre of
the WFC error circle (drawn in white colour in the figure). This source
is the X-ray afterglow of the GRB
(from
http://www.ias.rm.cnr.it/ias-home/sax/img990510.html).
- GCN notice #328
G. Pietrzynski and A. Udalski (Warsaw University Observatory) report on
behalf of the OGLE microlensing survey team:
We continued VI-band observations of the optical counterpart of GRB
990510 on May 12/13, 1999 (seeing about 1.8") and May 13/14, 1999
(seeing about 1.1") with the 1.3-m Warsaw telescope at the Las Campanas
Observatory (Chile). We report the following brightness of the object as
measured in images composed of a few 600 sec exposures:
UT JDhel. No of 600s Band Magnitude Error
May 1999 -2450000 exposures
13.3423 1311.84493 3 I 21.05 0.13
13.3684 1311.87104 3 V 21.86 0.08
13.9980 1312.49533 3 I 21.17 0.13
14.0267 1312.52935 5 V 22.41 0.06
14.1854 1312.68804 4 I 21.35 0.07
14.2294 1312.73198 4 V 22.46 0.05
We confirm that the object located about 2" south from the optical
counterpart of GRB990510 is rather a regular star (cf Lazzati et al,
GCN, #325) than the host galaxy. Its point-like character is clearly seen
in summed images and its photometry yields: V=22.54+/-0.06 and
I=21.33+/-0.07.
Updated photometry of the optical counterpart of GRB 990510 and light
curves are available from the OGLE Internet archive:
http://www.astrouw.edu.pl/~ftp/ogle
- GCN notice #329
G. Marconi and G.L. Israel (Observ. of Rome, Italy), D. Lazzati, S. Covino
and G. Ghisellini (Observ. of Brera, Milan, Italy) report:
A 30 min exposure taken at ESO-NTT-SUSI2 1999, May 16.10984, with a
seeing of 1.8" shows the OT of GRB990510 at the magnitude R=23.0+-0.1
(assuming R=16.5 for the USNO star at RA = 13:38:00.82, DEC=-80:29:11.7).
The faintest detected objects in the field have R=24.5.
No candidate host galaxy can be seen.
We have collected all available photometric data in V, R and I.
The light curve in the three bands can be fitted by the following 4
parameters formula (similar to that given by Bloom et al. in GCN 323):
F_nu(t) = k t^(-al1) / [1+ (t/t_*)^(al2-al1)]
where k is a normalization constant, such that the magnitude is given by
m(t)=-2.5*log(F_nu). This formula fits very well the light curve
in the 3 bands varying only k.
We find: al1 = 0.85, al2 = 2.6, t_* = 1.8e5 sec = 2.08 days.
The collection of data together with the above fit and the NTT image are
posted at:
http://www.merate.mi.astro.it/~gabriele/990510/
- GCN notice #330
S. Covino, D. Lazzati, G. Ghisellini, P. Saracco, S. Campana, G. Chincarini
(Observ. of Brera, Milan, Italy); S. Di Serego, A. Cimatti (Observ. of
Arcetri, Florence, Italy); L. Vanzi, L. Pasquini (ESO, Garching, Munich,
Germany); F. Haardt (Univ. of Insubria, Como, Italy); M. Vietri (Univ. of
Rome III, Italy); L. Stella (Observ. of Monte Porzio, Rome, Italy);
R. Falomo (Observ. of Padua, Italy); H. Boehnhardt, F. Bresolin, P. Moller,
G. Rupprecht (ESO-VLT service team), report:
We made imaging polarimetry of the optical transient associated to
GRB 990510 at ESO-VLT-FORS1 on 1999 May 11.13509, in the R band, when
the R-magnitude of the object was 19.1+/-0.02.
We found linear polarization at the level of 1.7+/-0.2 per cent with
position angle 12+/-4 degrees, relative to the stars in the field.
- GCN notice #331
K. Beuermann, K. Reinsch, F.V. Hessman (Goettingen Observatory)
report:
Further photometry and spectroscopy performed by K. Reinsch with
the ESO VLT and the FORS1 instrument as part of the FORS Consortium
Guaranteed Time Observations have revealed the nature of objects
close to the optical transient. The two objects 3 and 12 arcsec
north of the OT with V = 20.0 and V = 23.7 are cool foreground
stars of spectral types dM0 and about dM3. The object 2 arcsec
south of the OT with V = 22.7 is probably a star of somewhat
earlier spectral type. A spectrum of the OT taken on May 14.25 is
noisy but showed no obvious features. A V-band image taken on May
18.36 with the VLT under 0.9arcsec seeing shows the OT at magnitude
24.5 with no evidence so far of the host galaxy
(
http://www.uni-sw.gwdg.de/~hessman/GRB/).
- GCN notice #332
G. Marconi and G.L. Israel (Observ. of Rome, Italy), D. Lazzati, S. Covino
and G. Ghisellini (Observ. of Brera, Milan, Italy) report:
A 40 min exposure taken at ESO-NTT-SUSI2 1999, May 17.1066, with a
seeing of 1.2" shows the OT of GRB990510 at the magnitude R=23.4+-0.1
(assuming R=16.5 for the USNO star at RA = 13:38:00.82, DEC=-80:29:11.7).
A 50 min exposure taken on May 18.1306 (1" seeing) shows the OT at
R=23.7+-0.1.
No obvious candidate host galaxy can be seen.
The NTT images are posted at:
http://www.merate.mi.astro.it/~gabriele/990510/
- GCN notice #346
Arnon Dar reports:
Gravitational collapse of neutron stars (NS) to (di)quark stars (QS) due
to phase transition or mass accretion are expected to generate highly
relativistic jets plus a mildly relativistic spherical explosion (e.g.,
Dar 1999a,b). The jets, when pointing in our direction, produce GRBs, and
afterglows that decline with time like
F(t)\sim t^{-\alpha}/[1+(t/t_0)^{\beta-\alpha}]
The spherical explosion is expected to add to it an afterglow like that of
GRB 980425/SN 1998bw (Galama et al 1998; , time-dilated and redshifted by
1+z. Assuming ``a standard explosion'' = 1998bw at redshift 1+z:
F(t)\sim t^{-\alpha}/[1+(t/t_0)^{\beta-\alpha}]+ SN1998bw[1+z]
For GRB 990510, \alpha= 0.76, \beta=2.4, and t_0=1.57 days is the
time when the jet begins to spread. The spherical explosion is
expected to produce an up turn in the time-decline of the afterglow of GRB
990510 in the R band before the end of May, reach a maximum with R
magnitude m=26.7\pm 0.3 between early and mid June, decline fastly by two
additional magnitudes by mid August and then decline exponentially
with a much smaller rate, with a half time (1+z)=2.62 longer than that of
GRB 980425/SN 1998bw, i.e., t(half)=140 days. An identical behavior
is expected from the late afterglow (t>20 days after explosion) of GRB
990123 (z=1.61, Kulkarni et al. 1999).
[The above behavior explains better the behavior of the afterglow of GRB
970228 (z=0.69; Kulkarni 1999), t_max=20 days, m(max)=25 in the R band)
than a single power-law and consistent with all the other measured GRB
afterglows].
HST is urged to conduct observations of GRBs 990510 and 990123 in order to
test these predictions and verify/falsify the proposed NS-->QS origin of
GRBs.
Dar, A. 1999a, A\&A, in press (astro-ph/9902017)
Dar, A. 199b astro-ph/9905315
Galama, T. J. et al. 1998, Nature 395, 670
Kulkarni, S. R. et al 1999a, Nature, 398, 389
McKenzie, E. H. \& Schaefer, B. E. 1999 astro-ph/9904397
Stanek, K. Z. 1999, astro-ph/9905304
Vreeswijk, P. M. et al. 1999 GCN Circ. No. 324
- GCN notice #386
A. Fruchter, H. Ferguson, J. Pepper, R. Gibbons, K. Sahu (STScI) and E.
Pian (ITESRE-CNR, Bologna) report for the HST GRB collaboration:
The field of GRB 990510 was imaged by HST on 8.1 June 1999 (UT) and
17.9 June 1999 (UT) during one and two orbits, respectively, with the
STIS/CCD camera in Open Filter (50CCD) mode. The OT of GRB 990510 was
detected in both cases. Assuming the color of the OT has not changed
from the first few days when it could be modeled as f(nu) = nu^{-0.6}
passing through a Galactic extinction of E(B-V)=0.22 (Stanek et al.
1999, Harrison et al. 1999), we find magnitudes of V = 27.0 +/- 0.2 on
8.1 June and 27.8 +/- 0.3 on 17.9 June.
The STIS CCD in open filter mode is sensitive to wavelengths between
300 and 900 nm, and therefore both the conversion from counts to flux
density, and the estimated PSF (which is diffraction limited) depend
strongly on the assumed spectrum of the observed emission. This is of
particular concern in the 17.9 June observation, where we observe some
sign of extended emission about the PSF. Even though the extended
emission appears to be asymmetric, subtracting a red PSF (rather than
the relatively blue PSF implied by the early color) largely removes
this emission. In any event, the GRB does not have a host galaxy
brighter than V~28.
The fits of Stanek et al. and Harrison et al. to the early time light
curve predict, at both epochs, an OT fainter than observed by at least
several tenths of a magnitude. However, the excess counts above
predicted are between a factor of three (first epoch) to seven (second
epoch) less than would exist were a supernova Type Ic of the luminosity
of SN1998bw at the probable redshift of the GRB (z=1.6, Vreeswijk et
al. 1999) superposed on the decaying power-law light curve.
Sections of the images in gif format can be retrieved from
http://www.stsci.edu/~fruchter/GRB/990510 .
References:
Harrison, F.A. et al. 1999, astro-ph/9905306.
Stanek, K., Garnavich, P.M., Kaluzny, J., Pych, W. and Thompson, I. 1999,
Ap. J. (Letter,submitted), astro-ph/990534.
Vreeswijk, P. et al. 1999, GCN 324.
- Optical light curve from Harrison etal
(astro-ph/9905306 = ApJ 523, 1999, L121)
- GCN notice #756
J. S. Bloom, on behalf of the larger Caltech-NRAO-CARA GRB
Collaboration, reports:
We have discovered a faint extended source nearly coincident with the
position of GRB 990510. This source, which we identify as the host galaxy
of GRB 990510, is visible in new HST/STIS imaging taken on 29 April 2000
as part of the HST proposal #8189 (see Fruchter et al. GCN #386) and made
public on 28 July 2000. The total integration time is 5840 s taken in 8
individual exposures. Registration of the early epoch (17 June 1999) where
the OT was bright (29 Apr 1999) reveals the OT occurred (0.064" +/-
0.009") West and (0.015" +/- 0.012") North of the center of the host
galaxy. This amounts to a significant displacement of (66 +/- 9) mas or
~600 pc at a distance of z=1.62 (Galama et al. 1999), though the OT does
appear to reside within the detectable light of the galaxy. The galaxy
extension is PA=80.5 +/- 1.5 deg with an ellipticity of about ~0.5.
Preliminary magnitude estimates reveal that V_host = 28.5 +/- 0.5 mag
(referenced to star C of Beuermann et al. 1999). The host does appear to
be marginally detected in the July 1999 imaging as well (although see GCN
#386).
An image of the field from both epochs as well as a close-up of the
host and the 3-sigma location of the GRB can be found at:
http://astro.caltech.edu/~jsb/grb990510-host.ps and reproduced below:
- GCN notice #757
A. Fruchter (STScI), R. Hook (ST-ECF), E. Pian (ITESRE-CNR, Bologna) report
for a larger HST GRB collaboration:
The field of GRB 990510 was imaged by HST for a third time on
29 April 2000 using the STIS/CCD camera in Open Filter (50CCD) mode,
as part of our program to study this GRB (see GCN 386 for earlier results).
A total exposure time of 5840 s, divided between 8 dithered observations
was obtained.
Based on our previous observations, we would expect the GRB to be well
below the threshold of detectability -- which is for this
image a V=29 point source. As predicted the OT was not detected.
However, our June 1999 image had suggested the possible presence
of an underlying host galaxy (see GCN 386). We therefore convolved
the image with a gaussian of FWHM ~ 0."3, which is roughly comparable
to the typical size of galaxies in other deep fields near the detection limit
of the image for an extended source (V~28). The convolved image reveals
a >3 sigma source lying under the position of the OT, with its peak
lying ~0."075 East of the position of the OT. This we believe to
most likely be the host of the GRB.
Although the formal significance of the object is above 3 sigma, it lies
in a region of significant scattered light from bright nearby stars and it
is difficult to quantify the possible errors in the sky subtraction.
We therefore regard the detection of this host as tentative. Our
best estimate for the host's magnitude, assuming its correct
identification, is V=28 +/-0.3. Deeper integrations, particularly
ones taken at different roll angles, would be able to unambiguously
determine the reality of this detection.
The images of the field of GRB 990510 giving a clear idea of the significance
of the detection can be found at:
http://www.stsci.edu/~fruchter/GRB/990510 and reproduced below:
|
|
The 29 April 2000 image of the field of GRB 990510. At left
at the native resolution of the drizzled image, at right, the
image convolved with a gaussian kernel. The two images are shown
at the same scale, with a field of view from East (left) to West (right)
of about 6."5.
The probable host galaxy
is the central oblong feature (see image below for an arrow pointing
to the host). The position of the
OT (which is known to ~0."003 accuracy from the previous images) lies
~0."075 (three drizzle pixels) west of
of the extended feature seen in the convolved image. The formal
significance of the extended feature is above 3 sigma. The reality
of the other possible galaxy slightly above the probable host is
significantly more uncertain.
A wider view of the field of the convolved image, with the arrow pointing
towards the probable host galaxy. North is again up, East to the left.
The image is 13."4 wide. The high background near the probable
host and the irregular shape of the scattered light from the nearby
stars makes estimating the true significance of the detection difficult.
However, we believe this is most probably the host of GRB 990510.
- Radio detection by Harrison et al. 1999: ApJ 523, L121
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