GCN Circular 5774
Subject
GRB 061004: Swift/XRT Astrometry Correction
Date
2006-10-31T23:38:37Z (18 years ago)
From
Judith Racusin at PSU <racusin@astro.psu.edu>
J. L. Racusin (PSU), D. N. Burrows (PSU), K. L. Page (U Leicester), H.
Ziaeepour (UCL-MSSL), and N. Gehrels (NASA/GSFC) report on behalf of the
Swift XRT team:
We have re-analyzed the full XRT data set of GRB 061004. XRT observed the
field of GRB 061004 for a total exposure time of 61 ks between October 4
and October 10, 2006 in Photon Counting mode.
Applying the new XRT boresight definition (Burrows et al., GCN 5750), we
find a boresight corrected position of RA(J2000): 06h 31m 10.68s,
Dec(J2000): -45d 54' 22.7", with an estimated uncertainty of 3.6
arcseconds (radius, 90% containment).
To further improve the accuracy of this position, we performed an
astrometry correction using 54 ks of the total exposure time (when the
satellite position was stable). In this data set we find 26 serendipitous
X-ray sources detected with the XIMAGE detect algorithm with S/N > 3, 5 of
which have near-by optical counterparts in the USNO-B1 catalog. We match
these sources to obtain a best fit mean frame shift, carefully accounting
for several instrumental factors including exposure map correction, and
additional hot pixel removal.
We calculate the statistical position errors using the empirical fits as
described in Moretti et al. (2006, A&A, 448, L9), assuming that the
astrometric correction removes the 3.5" systematic error normally applied
to XRT positions to account for errors in the star tracker attitude
solution.
The result of this analysis leads to a mean frame shift from the
previously reported position (Page et al., GCN 5695), of:
RA offset: +0.49s +/- 0.07s Dec offset: +1.3" +/- 1.0"
and a new XRT astrometry corrected position of:
RA(J2000): 06h 31m 10.94s
Dec(J2000): -45d 54' 23.3"
with an estimated uncertainty of 2.0 arcseconds (radius, 90% containment).
This position is 5.0 arcseconds from the original refined XRT position
given in Page et al. (GCN 5695), 2.8 arcseconds from the boresight
corrected XRT position, and 5.9 arcseconds from the faint VLT optical
object described in Jakobsson et al. (GCN 5698).
A figure comparing all of these positions is available at:
http://www.swift.psu.edu/images/grb061004_astrometry.gif
This Circular is an official product of the Swift XRT team.
