TY - JOUR
T1 - The Lowest of the Low: Discovery of SN 2019gsc and the Nature of Faint Iax Supernovae
AU - Srivastav, Shubham
AU - Smartt, Stephen J.
AU - Leloudas, Giorgos
AU - Huber, Mark E.
AU - Chambers, Ken
AU - Malesani, Daniele B.
AU - Hjorth, Jens
AU - Gillanders, James H.
AU - Schultz, A.
AU - Sim, Stuart A.
AU - Auchettl, Katie
AU - Fynbo, Johan P. U.
AU - Gall, Christa
AU - McBrien, Owen R.
AU - Rest, Armin
AU - Smith, Ken W.
AU - Wojtak, Radoslaw
AU - Young, David R.
PY - 2020
Y1 - 2020
N2 - We present the discovery and optical follow-up of the faintest supernova-like transient known. The event (SN 2019gsc) was discovered in a star-forming host at 53 Mpc by ATLAS. A detailed multicolor light curve was gathered with Pan-STARRS1 and follow-up spectroscopy was obtained with the Nordic Optical Telescope and Gemini-North. The spectra near maximum light show narrow features at low velocities of 3000–4000 km s−1, similar to the extremely low-luminosity SNe 2010ae and 2008ha, and the light curve displays a similar fast decline (Δm 15(r) = 0.91 ± 0.10 mag). SNe 2010ae and 2008ha have been classified as SNe Iax, and together the three either make up a distinct physical class of their own or are at the extreme low-luminosity end of this diverse supernova population. The bolometric light curve is consistent with a low kinetic energy of explosion (E k ~ 1049 erg s−1), a modest ejected mass (M ej ~ 0.2 M ⊙), and radioactive powering by 56Ni (M Ni ~ 2 × 10−3 M ⊙). The spectra are quite well reproduced with radiative transfer models (TARDIS) and a composition dominated by carbon, oxygen, magnesium, silicon, and sulfur. Remarkably, all three of these extreme Iax events are in similar low-metallicity star-forming environments. The combination of the observational constraints for all three may be best explained by deflagrations of near M Ch hybrid carbon–oxygen–neon white dwarfs that have short evolutionary pathways to formation.
AB - We present the discovery and optical follow-up of the faintest supernova-like transient known. The event (SN 2019gsc) was discovered in a star-forming host at 53 Mpc by ATLAS. A detailed multicolor light curve was gathered with Pan-STARRS1 and follow-up spectroscopy was obtained with the Nordic Optical Telescope and Gemini-North. The spectra near maximum light show narrow features at low velocities of 3000–4000 km s−1, similar to the extremely low-luminosity SNe 2010ae and 2008ha, and the light curve displays a similar fast decline (Δm 15(r) = 0.91 ± 0.10 mag). SNe 2010ae and 2008ha have been classified as SNe Iax, and together the three either make up a distinct physical class of their own or are at the extreme low-luminosity end of this diverse supernova population. The bolometric light curve is consistent with a low kinetic energy of explosion (E k ~ 1049 erg s−1), a modest ejected mass (M ej ~ 0.2 M ⊙), and radioactive powering by 56Ni (M Ni ~ 2 × 10−3 M ⊙). The spectra are quite well reproduced with radiative transfer models (TARDIS) and a composition dominated by carbon, oxygen, magnesium, silicon, and sulfur. Remarkably, all three of these extreme Iax events are in similar low-metallicity star-forming environments. The combination of the observational constraints for all three may be best explained by deflagrations of near M Ch hybrid carbon–oxygen–neon white dwarfs that have short evolutionary pathways to formation.
U2 - 10.3847/2041-8213/ab76d5
DO - 10.3847/2041-8213/ab76d5
M3 - Journal article
SN - 2041-8205
VL - 892
JO - Astrophysical Journal Letters
JF - Astrophysical Journal Letters
IS - 2
M1 - L24
ER -