Abstract
We present a comparative study of the galactic and small scale environments of gamma-ray bursts (GRB) and core collapse supernovae (CCSN). We use a sample of 34 GRB hosts at z<1.2, and a comparison sample of 58 supernova hosts located within the Great Observatories Origins Deep Survey footprint. We fit template spectra to the available photometric data, which span the range 0.45-24 micron, and extract absolute magnitudes, stellar masses and star formation rates from the resulting fits. Our results broadly corroborate previous findings, but offer significant enhancements in spectral coverage and a factor 2-3 increase in sample size. Specifically, we find that CCSN occur frequently in massive spirals (spiral fraction ~50%). In contrast GRBs occur in small, relatively low mass galaxies with high specific and surface star formation rates, and have a spiral fraction of only ~10%. A comparison of the rest frame absolute magnitudes of the GRB and CCSN sample is less conclusive than found in previous work, suggesting that while GRB hosts are typically both smaller and bluer than those of CCSN their total blue light luminosities are only slightly lower. We suggest this is likely due to rapid periods of intensified star formation activity, as indicated by the high specific star formation rates, which both create the GRB progenitors and briefly significantly enhance the host galaxy blue luminosity. Finally, our analysis of local environments of GRBs and CCSN shows that GRBs are highly concentrated on their host light, and further occur in regions of higher absolute surface luminosity than CCSN.
Highlights
IntroductionCore-collapse supernovae (CCSNe) mark the endpoints in the lives of short-lived (lifetime few × 107 yr), massive stars (M 8 M )
Core-collapse supernovae (CCSNe) mark the endpoints in the lives of short-lived, massive stars (M 8 M )
The results of our analysis for CCSN and gamma-ray bursts (GRBs) hosts are shown in Tables 1 and 2, where we have tabulated the parameters derived from the fits along with directly measured parameters (r80)
Summary
Core-collapse supernovae (CCSNe) mark the endpoints in the lives of short-lived (lifetime few × 107 yr), massive stars (M 8 M ). Long-duration gamma-ray bursts (GRBs) are closely related to CCSNe, and offer similar advantages as tracers of star formation, which have been widely discussed in e.g. Jakobsson et al (2005, 2006) and Madau, della Valle & Panagia (1998). Both CCSN and GRB production requires only a single stellar progenitor, and so they select galaxies independently of the galaxy luminosity. By doing so they can point at galaxies too faint to be included in flux-limited surveys, potentially providing a handle on the faint end of the galaxy luminosity function at highz. Unlike GRBs CCSNe are less affected by metallicity effects, and they provide a more complete selection of the
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