XRF 020427

XRF 020427: Gemini-South Spectroscopic Observations of the Host Galaxy

P. G. van Dokkum (Yale) and J. S. Bloom (CfA) report:

On 1 Sept 2003 UT, we observed the host galaxy of XRF 020427 with the
newly commissioned GMOS Spectrograph on the Gemini South 8 m at CTIO in
Chile. Using the detection of the host continuum down to at least 3800
Angstrom in three blue grating exposures, we place a firm upper limit to
the redshift of the host at z < 2.3. In the presence of strong fringing, a
preliminary reduction reveals a (formally significant) faint emission line
at 8485 Angstrom in two dithered 1200 sec exposures. This line is also
formally detected, blueshifted by about 1800 km/s, in the nearby galaxy to
the South (see Bloom et al. ApJ, in press; astro-ph/0303514), giving added
confidence to the detection and the physical association of these two
galaxies. Without corroboration from other absorption or emission lines,
however, we have been unable to associate this tentative line with a
redshift for the host. A more detailed analysis is in progress."

We thank the Director for Discretionary Time and the observing staff of
Gemini for assistance.

A. Fruchter, J. Rhoads, I. Burud, A. Levan (STScI), S. Patel, C.
Kouveliotou (MSFC), Javier Gorosabel (IAA-CSIC, Granada), J. Hjorth
(Copenhagen U.)  report for the larger GOSH (Grb Optical Studies with
HST) Collaboration:

The field of XRF/GRB 020427 (Zand et al., GCN 1383
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 ) was observed with
HST on 10 June 2002 using the STIS CCD camera in open mode (50ccd).
The HST image was aligned to the USNO coordinate system using a
wide-field image obtained by the Danish 1.5m telescope at La Silla on
11 May 2002.  The position obtained by Fox et al. (GCN 1387
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 , 1392
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 ) was
then located on the HST image.

We believe the combined error in the position of the X-ray transient
and the transfer to the HST image is less than 0."45, one-sigma.   The
XRF appears to lie on a galaxy with V magnitude of ~24.7.  This galaxy,
which is extended in the NE-SW direction with a total length of ~1."5,
has two neighbors within a few arseconds of similar magnitude and
morphology, as well as a number of fainter neighbors.   The position
obtained by Fox et al. places the GRB preferentially towards an end of
the galaxy.  If we use only the header of the Chandra image to do the
alignment, we find a location near a bright knot on the apparent host,
about one-sigma from the Fox position.   Images taken at a later date
could allow a search for an optical counterpart.

Observations of this field have also been undertaken independently at
the VLT (see the accompanying GCN 1439
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 , Castro-Tirado et al.).  The VLT
observations show the complex of the three similar galaxies to be blue,
which is consistent with observations of GRB hosts in general (Fruchter
et al., Ap J. 519L, 13, 1999).

Images of the field are available at

http://www.stsci.edu/~fruchter/GRB/020427

GRB/XRF 020427, detection of an underlying system with the VLT
------------------------------------------------

A. J. Castro-Tirado and J. Gorosabel (Instituto de Astrof�sica
de Andaluc�a, IAA-CSIC, Granada)
C. S�nchez-Fern�ndez (ESA-VILSPA, Madrid)
N. Lund and S. Brandt (DSRI, Copenhagen)
J. M. Castro Cer�n (ROA, San Fernando)

communicate:

"We have observed the field of the GRB/XRF 020427 (GCN Circulars 1383
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 , 1384
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 ,
1386
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 , 1390
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 , 1394
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 ) on 11.388-11.397 June 2002 with the 8.2-m VLT telescope
at Paranal ESO's observatory (equipped with FORS2). Imagery was obtained
in the B- and R-bands (300-s exposure time each) under rather poor seeing
conditions (1".2). The position of the likely X-ray afterglow detected by
BSAX and followed-up by Chandra (GCN Circulars 1387
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 , 1392
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 ) is coincident
with the north part of a extended (about 4" x 2"), blue object with R =
23.3 +/- 0.2 and B = 23.8 +/- 0.4 which is consistent with the galaxy system
reported independently by Fruchter et al. (GCN Circ. 1440
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 ). An identification
chart is posted at www.iaa.es/~ajct/XRFs/xrf02042

G.J. Fishman, P.M.. Woods, C. Hossfield and L. Anderson report that the
X-ray rich event of April 27, 2002 was detected as a Sudden Ionospheric
Disturbance (SID) by Len Anderson in South Perth Australia, indicating
that XRF 020427 (GCN 1383
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 ), produced a prodigious amount of ionizing
x-ray flux.   The disturbance is clearly seen, lasting about one minute,
in a low-resolution all-day strip chart recording from a Very Low
Frequency (VLF) radio receiver near Perth.  Although a quantitative
measure of the flux of this event could not be determined by this
method, the SID magnitude (and thus the ionizing flux) is comparable to
that observed from the Aug. 27, 1998 super-flare from SGR 1900+14 (Inan,
et al., Geophys. Res. Lett., v.26, p.3357, 1999).  A large flux of
x-rays below ~15 keV was deduced from that flare (op. cit.).  One
intense gamma-ray burst, GRB830801, was also observed to produce a SID
but at a much weaker level (Fishman and Inan, Nature v.331, p.418,
1988).  The strong ionizing present in this burst confirms that this is
a long, x-ray rich event of unknown origin, as suggested by in't Zand et
al. (GCN 1383
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 ).

Note: SIDs have been used to study solar flares since the 1950s.  In
this case, the SID was observed as a major change in the propagation of
a continuous VLF radio transmission at 19.8 kHz from Northwest Cape,
Australia.  The VLF radio receiver trace can be seen at:

http://gammaray.nsstc.nasa.gov/~woods/xrf020427.html

This message may be cited.

D. W. Fox (Caltech) reports on behalf of the Caltech-NRAO GRB
Collaboration:

"We have observed the error region of the X-ray flash XRF020427 (GCN
1383
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 , 1384
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 , 1386
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 ) with the Chandra X-ray Observatory for 12.5 ksec
beginning May 14.1939 UT.  Reduction of the data using standard Ciao
procedures, and comparison with the source catalog from our first
observation of May 6.2456 UT (GCN 1387
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 ), yields the following results
for the BeppoSAX NFI error circle (Amati et al., GCN 1386
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 ):

    ID        IAU Name          CR_1    CR_2    Delta   
   =======================================================
     1  CXOU J220928.2-651932   4.2(6)  1.8(4)  -3.3 sigma
     2  CXOU J220925.9-651855   1.2(3)  2.3(4)  +2.1
     3  CXOU J220925.0-651919   1.1(3)  0.8(3)  -0.7
   =======================================================

where "CR_1" and "CR_2" are the source count rates per ksec in the 0.3
to 7.0 keV band for the first and second Chandra observations,
respectively, and "Delta" is the signed significance of the change in
count rate from the first to the second observation, expressed in
standard deviations.  Uncertainties in the trailing digits are
indicated in parentheses.  

The brightest source in the first epoch, CXOU J220928.2-651932 (ID 1),
shows a pronounced fading between the two epochs, equivalent to a
power-law decay with index 1.3 referenced to the epoch of the burst
(Apr 27.1588).  We conclude that this source is the likely X-ray
afterglow of XRF020427.  

In addition, identification of three USNO stars on the Chandra images
has allowed us to improve the aspect; the improved position of the
likely afterglow (ID 1) is

    RA  22:09:28.265(46),  Dec -65:19:31.78(32)  (J2000)

where the uncertainties are indicated in parentheses and correspond to
an average radial uncertainty of 0.3 arcsec (one-sigma)."

M. H. Wieringa (ATNF), E. Berger, D. W. Fox (Caltech), and D. A. Frail
(NRAO) report on behalf of a larger collaboration:

"We observed the BeppoSAX MECS error circle of GRB/XRF 020427 (GCN 1386
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 )
at 8.7 GHz with the Australia Telescope Compact Array (ATCA) for 6.2 hours
centered on May 11.8 UT.  We detect one radio source within the MECS error
circle with a flux density of 190+/-35 microJy at (+/-0.1 arcsec):

        RA=22:09:17.73, DEC=-65:19:35.8  (J2000)

We find no counterparts to the three Chandra sources reported by D. Fox
(GCN 1387
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 ), down to a 2-sigma limit of 70 microJy."

This message may be cited.

D. W. Fox (Caltech) reports on behalf of the Caltech-NRAO-CARA GRB
Collaboration:

"We have observed the error region of the X-ray flash XRF020427 (GCN
1383
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 , 1384
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 , 1386
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 ) with the Chandra X-ray Observatory for 13.8 ksec
beginning May 6.2456 UT.  Reduction of the data using standard Ciao
procedures yields the following source catalog (listed in decreasing
order of significance) for the most recent BeppoSAX/MECS localization
region (GCN 1386
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 ):

    ID        IAU Name          Sig    Cts       HR
   =======================================================
     1  CXOU J220928.2-651932  26.8  57.6(78)  0.34(11)
     2  CXOU J220925.9-651855  11.9  15.8(41)  0.13(9)
     3  CXOU J220925.0-651919   7.3  20.0(46)  0.07(7)
   =======================================================

where "Sig" is the wavdetect-quoted significance of the source in the
0.3 to 7.0 keV band, "Cts" is the counts in this band over the 13.8 ks
exposure, "HR" is the hardness ratio of 2.1-7.0 keV counts to 0.3-2.1
keV counts, and uncertainties in the trailing digits are indicated in
parentheses.  J2000 coordinates of the sources are implicit in their
IAU names.

Source CXOU J220925.0-651919 (ID 3) is coincident with a weak source
(not a USNO star) from the Digitized Sky Survey (DSS/SES).  

Identification of the brightest source, CXOU J220928.2-651932 (ID 1),
with the afterglow of XRF020427 would imply an average power-law decay
index of approximately 1.8 from the epoch of the second BeppoSAX MECS
observation (Apr 29.4439 UT) when referenced to the time of the burst
(Apr 27.1588 UT).  We therefore consider this source to be the most
likely candidate counterpart."

Jean in 't Zand, Fabrizio Reali, Stefano Granata, Paul Lowes and Luigi Piro
report on behalf of the BeppoSAX team:

BeppoSAX Wide Field Camera unit 2 detected a fast X-ray transient on
April 27 at 3:48:40 UT. Quick-look analysis shows that it lasted 1.1
min, with a rise time of 0.1 min. The 10-28 to 2-10 keV hardness ratio
is similar to the X-ray rich GRBs like 981226 and type-I X-ray
bursters. The Gamma-Ray Burst Monitor covered this event, but no
obvious signal was detected. We strongly suspect that this is an X-ray
rich GRB or X-ray flash rather than an X-ray burst because 1) the time
profile is unusual for an X-ray burst; 2) there is no evidence for
softening in the decay; 3) the galactic latitude of -44.2 deg is
unusual for an X-ray burst. We strongly encourage follow-up
observations. The refined WFC position is:

R.A. =  22h09m33.6s (332.3900 deg)
Dec. = -65d19m36.6s (-65.3268 deg)

(Eq. 2000.0) with an error radius of 3 arcmin (99% confidence).