Observations of type Ia supernova SN 2020nlb up to 600 days after explosion, and the distance to M85

Williams, S. C. and Kotak, R. and Lundqvist, P. and Mattila, S. and Mazzali, P. A. and Pastorello, A. and Reguitti, A. and Stritzinger, M. D. and Fiore, A. and Hook, I. M. and Moran, S. and Salmaso, I. (2024) Observations of type Ia supernova SN 2020nlb up to 600 days after explosion, and the distance to M85. Astronomy and Astrophysics, 685: A135. ISSN 1432-0746

[thumbnail of williams_2401.08759]
Text (williams_2401.08759)
williams_2401.08759.pdf - Accepted Version
Available under License Creative Commons Attribution.

Download (5MB)
[thumbnail of pdf]
Other (pdf)
2401.08759

Download (5MB)

Abstract

The type Ia supernova (SN Ia) SN 2020nlb was discovered in the Virgo Cluster galaxy M85 shortly after explosion. Here we present observations that include one of the earliest high-quality spectra and some of the earliest multi-colour photometry of a SN Ia to date. We calculated that SN 2020nlb faded 1.28+/-0.02 mag in the B band in the first 15d after maximum brightness. We independently fitted a power-law rise to the early flux in each filter, and found that the optical filters all give a consistent first light date estimate. In contrast to the earliest spectra of SN 2011fe, those of SN 2020nlb show strong absorption features from singly ionised metals, including Fe II and Ti II, indicating lower-excitation ejecta at the earliest times. The spectra of SN 2020nlb then evolve to become hotter and more similar to SN 2011fe as it brightens towards peak. We also obtained a sequence of nebular spectra that extend up to 594 days after maximum light, a phase out to which SNe Ia are rarely followed. The [Fe III]/[Fe II] flux ratio (as measured from emission lines in the optical spectra) begins to fall around 300 days after peak; by the +594d spectrum, the ionisation balance of the emitting region of the ejecta has shifted dramatically, with [Fe III] by then being completely absent. The final spectrum is almost identical to SN 2011fe at a similar epoch, and in sharp contrast to a late nebular spectrum of SN 1994D, which still displayed strong [Fe III] emission at these late times. Comparing our data to other SN Ia nebular spectra, there is a possible trend where SNe that were more luminous at peak tend to have a higher [Fe III]/[Fe II] flux ratio in the nebular phase, but there are also notable outliers. Finally, using light-curve fitting on our data, we estimate the distance modulus for M85 to be 30.99+/-0.19 mag, corresponding to a distance of 15.8^{+1.4}_{-1.3} Mpc.

Item Type:
Journal Article
Journal or Publication Title:
Astronomy and Astrophysics
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/3100/3103
Subjects:
?? astrophysics - high energy astrophysical phenomenaastrophysics - solar and stellar astrophysicsastronomy and astrophysicsspace and planetary science ??
ID Code:
213182
Deposited By:
Deposited On:
19 Jan 2024 13:40
Refereed?:
Yes
Published?:
Published
Last Modified:
02 Oct 2024 00:26