# Inferring Explosion Properties from Type II-Plateau Supernova Light   Curves

**Authors:** Jared A. Goldberg, Lars Bildsten, Bill Paxton

arXiv: 1903.09114 · 2019-06-27

## TL;DR

This paper advances modeling of Type IIP supernovae by linking observable light curve features to explosion parameters using combined MESA and STELLA simulations, aiding in constraining supernova explosion properties.

## Contribution

It introduces a method to translate supernova light curve observables into explosion parameter families, improving modeling and interpretation of observed Type IIP supernovae.

## Key findings

- Synthetic light curves can map observable properties to explosion parameters.
- Ejecta velocities during the plateau phase provide limited additional information.
- Early shock cooling phase velocities may help resolve degeneracies.

## Abstract

We present advances in modeling Type IIP supernovae using MESA for evolution to shock breakout coupled with STELLA for generating light and radial velocity curves. Explosion models and synthetic light curves can be used to translate observable properties of supernovae (such as the luminosity at day 50 and the duration of the plateau, as well as the observable quantity $ET$, defined as the time-weighted integrated luminosity that would have been generated if there was no ${\rm ^{56}Ni}$ in the ejecta) into families of explosions which produce the same light curve and velocities on the plateau. These predicted families of explosions provide a useful guide towards modeling observed SNe, and can constrain explosion properties when coupled with other observational or theoretical constraints. For an observed supernova with a measured ${\rm ^{56}Ni}$ mass, breaking the degeneracies within these families of explosions (ejecta mass, explosion energy, and progenitor radius) requires independent knowledge of one parameter. We expect the most common case to be a progenitor radius measurement for a nearby supernova. We show that ejecta velocities inferred from the Fe II$\lambda$ 5169 line measured during the majority of the plateau phase provide little additional information about explosion characteristics. Only during the initial shock cooling phase can photospheric velocity measurements potentially aid in unraveling light curve degeneracies.

## Full text

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## Figures

32 figures with captions in the complete paper: https://tomesphere.com/paper/1903.09114/full.md

## References

59 references — full list in the complete paper: https://tomesphere.com/paper/1903.09114/full.md

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Source: https://tomesphere.com/paper/1903.09114