English

The Radio Luminosity-Risetime Function of Core-Collapse Supernovae

High Energy Astrophysical Phenomena 2021-02-24 v2

Abstract

We assemble a large set of 2-10 GHz radio flux density measurements and upper limits of 294 different supernovae (SNe), from the literature and our own and archival data. Only 31% of the SNe were detected. We characterize the SN lightcurves near the peak using a two-parameter model, with tpkt_{\rm pk} being the time to rise to a peak and LpkL_{\rm pk} the spectral luminosity at that peak. Over all SNe in our sample at D<100D<100 Mpc, we find that tpk=101.7±0.9t_{\rm pk} = 10^{1.7\pm0.9} d, and that Lpk=1025.5±1.6L_{\rm pk} = 10^{25.5\pm1.6} erg s1^{-1} Hz1^{-1}, and therefore that generally, 50% of SNe will have Lpk<1025.5L_{\rm pk} < 10^{25.5} erg s1^{-1} Hz1^{-1}. These LpkL_{\rm pk} values are ~30 times lower than those for only detected SNe. Types I b/c and II (excluding IIn's) have similar mean values of LpkL_{\rm pk} but the former have a wider range, whereas Type IIn SNe have ~10 times higher values with Lpk=1026.5±1.1L_{\rm pk} = 10^{26.5\pm1.1} erg s1^{-1} Hz1^{-1}. As for tpkt_{\rm pk}, Type I b/c have tpkt_{\rm pk} of only 101.1±0.510^{1.1\pm0.5} d while Type II have tpk=101.6±1.0t_{\rm pk} = 10^{1.6\pm1.0} and Type IIn the longest timescales with tpk=103.1±0.7t_{\rm pk} = 10^{3.1\pm0.7} d. We also estimate the distribution of progenitor mass-loss rates, M˙\dot M, and find the mean and standard deviation of log10(M˙/_{10}(\dot M/Msol) yr1^{-1} are 5.4±1.2-5.4\pm1.2 (assuming vwind=1000v_{\rm wind}=1000 km s1^{-1}) for Type I~b/c SNe, and 6.9±1.4-6.9\pm1.4 (assuming vwind=10v_{\rm wind} = 10 km s1^{-1} for Type II SNe excluding Type IIn.

Keywords

Cite

@article{arxiv.2011.11737,
  title  = {The Radio Luminosity-Risetime Function of Core-Collapse Supernovae},
  author = {Michael F. Bietenholz and N. Bartel and M. Argo and R. Dua and S. Ryder and A. Soderberg},
  journal= {arXiv preprint arXiv:2011.11737},
  year   = {2021}
}

Comments

Accepted for publication in the Astrophysical Journal 15 Figures, 4 Tables; Full version of Table 1 in ancillary files. Minor revisions only from version 1

R2 v1 2026-06-23T20:27:36.854Z