A Late-time Radio Search for Highly Off-axis Jets from PTF Broad-lined Ic Supernovae in GRB-like Host Galaxy Environments

Abstract

Hydrogen/Helium-poor stripped-envelope core-collapse supernovae with broad lines (SNe Ic-bl) almost always accompany the nearby (z < 0.3) jetted relativistic explosions known as long duration gamma-ray bursts (GRBs). However, the majority of SNe Ic-bl have no detected GRB counterpart. At least some of these SNe should harbor off-axis jets, whose afterglow may become detectable at late times, particularly at radio wavelengths. Here, we present Karl G. Jansky Very Large Array radio observations (rest frame times of 3-4×103 days post SN discovery) of a sample of 14 SNe Ic-bl discovered by the Palomar Transient Factory (PTF) that have been demonstrated to originate from the same host environments as the SNe Ic-bl associated with nearby GRBs. Of the 14 SNe, we identify three that are radio detected, one of which (PTF10tqv, z = 0.0795) is consistent with an off-axis jet with energy similar to classical GRBs ( 1051-1051.7~erg). Using recently developed synchrotron radiation code, we find that for our 11 non-detections, which are among the deepest limits obtained for Ic-bl, we rule out an off-axis jet with an energy of 1051~ erg in circumburst densities of 10-1~ cm-3. We predict that well-spaced monitoring of newly discovered SNe Ic-bl from 10~days to 10~years (rest frame) to luminosities of 1027~ erg~s-1~ Hz-1 will constrain the existence of highly off-axis jets (60) with classical GRB energies. The VLA Sky Survey will probe jets that are 60 off-axis, whereas the Deep Synpotic Array 2000 will probe jets out to 90 off-axis, demonstrating the importance of utilizing radio surveys to supplement targeted observations.