TY - JOUR
T1 - A precursor plateau and pre-maximum [O II] emission in the superluminous SN2019szu: a pulsational pair-instability candidate
AU - Aamer, Aysha
AU - Nicholl, Matt
AU - Jerkstrand, Anders
AU - Gomez, Sebastian
AU - Oates, Samantha R
AU - Smartt, Stephen J
AU - Srivastav, Shubham
AU - Leloudas, Giorgos
AU - Anderson, Joseph P
AU - Berger, Edo
AU - de Boer, Thomas
AU - Chambers, Kenneth
AU - Chen, Ting-Wan
AU - Galbany, Lluís
AU - Gao, Hua
AU - Gompertz, Benjamin P
AU - González-Bañuelos, Maider
AU - Gromadzki, Mariusz
AU - Gutiérrez, Claudia P
AU - Inserra, Cosimo
AU - Lowe, Thomas B
AU - Magnier, Eugene A
AU - Mazzali, Paolo A
AU - Moore, Thomas
AU - Müller-Bravo, Tomás E
AU - Pursiainen, Miika
AU - Rest, Armin
AU - Schulze, Steve
AU - Smith, Ken W
AU - Terwel, Jacco H
AU - Wainscoat, Richard
AU - Young, David R
PY - 2024/2
Y1 - 2024/2
N2 - We present a detailed study on SN2019szu, a Type I superluminous supernova at z = 0.213, that displayed unique photometric and spectroscopic properties. Pan-STARRS and ZTF forced photometry shows a pre-explosion plateau lasting ∼ 40 days. Unlike other SLSNe that show decreasing photospheric temperatures with time, the optical colours show an apparent temperature increase from ∼15000 K to ∼20000 K over the first 70 days, likely caused by an additional pseudo-continuum in the spectrum. Remarkably, the spectrum displays a forbidden emission line (likely attributed to λλ7320,7330) visible 16 days before maximum light, inconsistent with an apparently compact photosphere. This identification is further strengthened by the appearances of [O III] λλ4959, 5007, and [O III] λ4363 seen in the spectrum. Comparing with nebular spectral models, we find that the oxygen line fluxes and ratios can be reproduced with ∼0.25 M⊙ of oxygen rich material with a density of $\sim 10^{-15}\, \rm {g\, cm}^{-3}$. The low density suggests a circumstellar origin, but the early onset of the emission lines requires that this material was ejected within the final months before the terminal explosion, consistent with the timing of the precursor plateau. Interaction with denser material closer to the explosion likely produced the pseudo-continuum bluewards of ∼5500 Å. We suggest that this event is one of the best candidates to date for a pulsational pair-instability ejection, with early pulses providing the low density material needed for the formation of the forbidden emission line, and collisions between the final shells of ejected material producing the pre-explosion plateau.
AB - We present a detailed study on SN2019szu, a Type I superluminous supernova at z = 0.213, that displayed unique photometric and spectroscopic properties. Pan-STARRS and ZTF forced photometry shows a pre-explosion plateau lasting ∼ 40 days. Unlike other SLSNe that show decreasing photospheric temperatures with time, the optical colours show an apparent temperature increase from ∼15000 K to ∼20000 K over the first 70 days, likely caused by an additional pseudo-continuum in the spectrum. Remarkably, the spectrum displays a forbidden emission line (likely attributed to λλ7320,7330) visible 16 days before maximum light, inconsistent with an apparently compact photosphere. This identification is further strengthened by the appearances of [O III] λλ4959, 5007, and [O III] λ4363 seen in the spectrum. Comparing with nebular spectral models, we find that the oxygen line fluxes and ratios can be reproduced with ∼0.25 M⊙ of oxygen rich material with a density of $\sim 10^{-15}\, \rm {g\, cm}^{-3}$. The low density suggests a circumstellar origin, but the early onset of the emission lines requires that this material was ejected within the final months before the terminal explosion, consistent with the timing of the precursor plateau. Interaction with denser material closer to the explosion likely produced the pseudo-continuum bluewards of ∼5500 Å. We suggest that this event is one of the best candidates to date for a pulsational pair-instability ejection, with early pulses providing the low density material needed for the formation of the forbidden emission line, and collisions between the final shells of ejected material producing the pre-explosion plateau.
KW - Space and Planetary Science
KW - Astronomy and Astrophysics
U2 - 10.1093/mnras/stad3776
DO - 10.1093/mnras/stad3776
M3 - Article
SN - 0035-8711
VL - 527
SP - 11970
EP - 11995
JO - Monthly Notices of the Royal Astronomical Society
JF - Monthly Notices of the Royal Astronomical Society
IS - 4
ER -