Redshift Filtering by Swift Apparent X-ray Column Density
Abstract
We remark on the utility of an observational relation between the absorption column density in excess of the Galactic absorption column density, , and redshift, z, determined from all 55 Swift-observed long bursts with spectroscopic redshifts as of 2006 December. The absorption column densities, , are determined from powerlaw fits to the X-ray spectra with the absorption column density left as a free parameter. We find that higher excess absorption column densities with cm are only present in bursts with redshifts z2. Low absorption column densities with cm appear preferentially in high-redshift bursts. Our interpretation is that this relation between redshift and excess column density is an observational effect resulting from the shift of the source rest-frame energy range below 1 keV out of the XRT observable energy range for high redshift bursts. We found a clear anti-correlation between and z that can be used to estimate the range of the maximum redshift of an afterglow. A critical application of our finding is that rapid X-ray observations can be used to optimize the instrumentation used for ground-based optical/NIR follow-up observations. Ground-based spectroscopic redshift measurements of as many bursts as possible are crucial for GRB science.
Keywords
Cite
@article{arxiv.astro-ph/0612104,
title = {Redshift Filtering by Swift Apparent X-ray Column Density},
author = {Dirk Grupe and John A. Nousek and Daniel E. vanden Berk and Peter W. A. Roming and David N. Burrows and Olivier Godet and Julian Osborne and Neil Gehrels},
journal= {arXiv preprint arXiv:astro-ph/0612104},
year = {2008}
}
Comments
revised version including updates and the referee's comments, accepted for publication in the Astronomical Journal, 12 pages, 2 figures, 2 tables - v3 contains an update on the reference list