# Detection of Circumstellar Helium in Type Iax Progenitor Systems

**Authors:** Wynn Jacobson-Galan, Ryan Foley, Josiah Schwab, Georgios Dimitriadis,, Shawfeng Dong, Saurabh Jha, Daniel Kasen, Charles Kilpatrick, Rollin, Thomas

arXiv: 1812.11692 · 2019-05-22

## TL;DR

This study uses spectral modeling to detect helium in Type Iax supernovae, finding helium in some early spectra but not in late-time spectra, which complicates understanding their progenitor systems.

## Contribution

First direct spectroscopic modeling of a large sample of SNe Iax to identify circumstellar helium, providing new insights into their progenitor systems.

## Key findings

- Helium detected in early spectra of 2 SNe Iax.
- Approximately 33% of SNe Iax show detectable helium.
- No hydrogen or helium emission detected in late-time spectra.

## Abstract

We present direct spectroscopic modeling of 44 Type Iax supernovae (SNe Iax) using spectral synthesis code SYNAPPS. We confirm detections of helium emission in the early-time spectra of two SNe Iax: SNe 2004cs and 2007J. These He I features are better fit by a pure-emission Gaussian than by a P-Cygni profile, indicating that the helium emission originates from the circumstellar environment rather than the SN ejecta. Based on the modeling of the remaining 42 SNe Iax, we find no obvious helium features in other SN Iax spectra. However, $\approx 76\%$ of our sample lack sufficiently deep luminosity limits to detect helium emission with a luminosity of that seen in SNe 2004cs and 2007J. Using the objects with constraining luminosity limits, we calculate that 33% of SNe Iax have detectable helium in their spectra. We examine 11 SNe Iax with late-time spectra and find no hydrogen or helium emission from swept up material. For late-time spectra, we calculate typical upper limits of stripped hydrogen and helium to be $2 \times 10^{-3}$ M$_{\odot}$ and $10^{-2}$ M$_{\odot}$, respectively. While detections of helium in SNe Iax support a white dwarf-He star binary progenitor system (i.e., a single-degenerate [SD] channel), non-detections may be explained by variations in the explosion and ejecta material. The lack of helium in the majority of our sample demonstrates the complexity of SN Iax progenitor systems and the need for further modeling. With strong independent evidence indicating that SNe Iax arise from a SD channel, we caution the common interpretation that the lack of helium or hydrogen emission at late-time in SN Ia spectra rules out SD progenitor scenarios for this class.

## Full text

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## Figures

124 figures with captions in the complete paper: https://tomesphere.com/paper/1812.11692/full.md

## References

89 references — full list in the complete paper: https://tomesphere.com/paper/1812.11692/full.md

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Source: https://tomesphere.com/paper/1812.11692