Projects per year
Abstract
Type IIP supernovae (SNe IIP) mark the explosive death of red supergiants (RSGs), evolved massive stars with an extended hydrogen envelope. They are the most common supernova type and allow for the benchmarking of supernova explosion models by statistical comparison to observed population properties rather than by comparing individual models and events. We construct a large synthetic set of SNe IIP light curves (LCs) using the radiation hydrodynamics code SNEC and explosion energies and nickel masses obtained from an efficient semianalytic model for two different sets of stellar progenitor models. By direct comparison, we demonstrate that the semianalytic model yields very similar predictions as alternative phenomenological explosion models based on 1D simulations. We find systematic differences of a factor of ∼2 in plateau luminosities between the two progenitor sets due to different stellar radii, which highlights the importance of the RSG envelope structure as a major uncertainty in interpreting the LCs of SNe IIP. A comparison to a volume-limited sample of observed SNe IIP shows decent agreement in plateau luminosity, plateau duration, and nickel mass for at least one of the synthetic LC sets. The models, however, do not produce sufficient events with very small nickel mass M Ni < 0.01 M ⊙ and predict an anticorrelation between plateau luminosity and plateau duration that is not present in the observed sample, a result that warrants further study. Our results suggest that a better understanding of RSG stellar structure is no less important for reliably explaining the LCs of SNe IIP than the explosion physics.
Original language | English |
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Article number | 155 |
Number of pages | 13 |
Journal | The Astrophysical Journal |
Volume | 952 |
Issue number | 2 |
DOIs | |
Publication status | Published - 1 Aug 2023 |
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ARC Centre of Excellence for All Sky Astrophysics in 3 Dimensions
Kewley, L., Stuart B Wyithe, J., Sadler, E. M., Staveley-Smith, L., Glazebrook, K., Jackson, C., Bland-Hawthorn, J., Asplund, M. B., Trott, C. M., Webster, R., trenti, M., Colless, M., Croom, S., Ryan-Weber, E. V., Power, C., Croton, D. J., Driver, S., Abraham, R., Ball, L., Bunker, A., Couch, W., Dalcanton, J., Davies, R. L., Gaensler, B. M., Hopkins, A., Kirby, E., Koribalski, B., Li, D., Christopher Martin, D., Morales, M. F., Morganti, R., Springel, V., Wise, M. W. & Karakas, A.
Monash University – Internal Faculty Contribution
30/06/17 → 31/12/24
Project: Research
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Understanding the diversity of core-collapse supernovae
Australian Research Council (ARC), Monash University
30/06/17 → 30/06/24
Project: Research
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ARC Centre of Excellence for Gravitational Wave Discovery
Bailes, M., McClelland, D. E., Levin, Y., Blair, D. G., Scott, S. M., Ottaway, D. J., Melatos, A., Veitch, P. J., Wen, L., Shaddock, D. A., Slagmolen, B. J. J., Zhao, C., Evans, R. J., Ju, L., Galloway, D., Thrane, E., Hurley, J. R., Coward, D. M., Cooke, J., Couch, W., Hobbs, G. B., Reitze, D., Rowan, S., Cai, R., Adhikari, R. X., Danzmann, K., Mavalvala, N., Kulkarni, S. R., Kramer, M., Branchesi, M., Gehrels, N., Weinstein, A. J. R., Steeghs, D., Bock, D. & Lasky, P.
Monash University – Internal University Contribution, Monash University – Internal Department Contribution
1/01/17 → 31/03/24
Project: Research