GCN Circular 7159
Subject
Bright X-ray Transient in NGC 2770 - A low-luminosity XRF?
Date
2008-01-10T16:12:03Z (17 years ago)
From
Edo Berger at Princton U <eberger@astro.princeton.edu>
E. Berger and A.M. Soderberg (Princeton University) report:
"Follow-up observations of SN2007uy with the Swift/XRT reveal a new transient
source about 95 arcsec away from the SN position at RA=09:09:30.7,
Dec=+33:08:19 (J2000). This position coincides with the outskirts of the host
galaxy of SN2007uy (NGC 2770). The object was not detected in the previous
observation of SN2007uy (ATEL #1350) and is detected only in the first 1 ksec
of the new observation. During that time the light curve is FRED-like with a
rise time of about 50 sec and a decay to the background level by about 600 sec.
The source is not detected in the subsequent 4 ksec of data that intermittently
cover 5-24 ksec after the flare. The average count rate is about 1 cps, which
at the distance of NGC2770 (d=27 Mpc) corresponds to a luminosity of about
4x10^42 erg/s. This is in excess of 10^4 times the Eddington luminosity of a
solar mass object. No coincident object is detected in the simultaneous
Swift/UVOT data or in archival DSS and 2MASS images.
Alternatively, this may be a foreground bright stellar flare (with
L_X/L_bol=10^-3), but this would require a solar-type star at a distance of
only 25 pc or an M dwarf at 2 pc, both of which would be detectable in optical
and near-IR images. An extreme stellar flare with L_X=L_bol would require
distances of about 500 and 50 pc, respectively.
Spectral fitting indicates a best-fit absorbed power law spectrum with
NH=4x10^21 cm^-2 (in excess of the Galactic value of 2x10^20 cm^-2) and a
photon index of 2.1. The unabsorbed luminosity is 5x10^42 erg/s. The high
column density likely rules out a Galactic origin.
Given the high luminosity at the distance of NGC 2770, the light curve shape,
and the integrated energy of about 10^45 erg, we hypothesize that this object
may be a weak X-ray Flash, perhaps analogous to GRB980425/SN1998bw.
Deep optical and near-IR observations to search for a counterpart are
encouraged. Radio observations are in progress."