# The Young and Nearby Normal Type Ia Supernova 2018gv: UV-Optical   Observations and the Earliest Spectropolarimetry

**Authors:** Yi Yang (1), Peter A. Hoeflich (2), Dietrich Baade (3), Justyn R., Maund (4), Lifan Wang (5, 6), Peter. J. Brown (5), Heloise F. Stevance, (4), Iair Arcavi (7), Jamie Burke (8, 9), Aleksandar Cikota (10),, Alejandro Clocchiatti (11), Avishay Gal-Yam (1), Melissa. L. Graham (12),, Daichi Hiramatsu (8, 9), Griffin Hosseinzadeh (13, 8, 9), D. Andrew, Howell (8, 9), Saurabh W. Jha (14, 15), Curtis McCully (8), Ferdinando, Patat (3), David. J. Sand (16), Steve Schulze (1), Jason Spyromilio (3),, Stefano Valenti (17), Jozsef Vinko (18, 19, 20), Xiaofeng Wang (21), J., Craig Wheeler (20), Ofer Yaron (1), Jujia Zhang (22, 23) ((1) WIS, (2), Florida State University, (3) ESO, (4) University of Sheffield, (5) Texas, A&M, (6) PMO, (7) Tel Aviv University, (8) LCO, (9) UC Santa Barbara, (10), LBNL, (11) PUC, (12) University of Washington, (13) Harvard/CfA, (14), Rutgers, (15) Flatiron Institute, (16) Steward/Arizona, (17) UC Davis, (18), Konkoly Observatory, (19) University of Szeged, (20) UT Austin, (21) Tsinghua, University/THCA, (22) Yunnan Observatories, (23) Chinese Academy of Sciences)

arXiv: 1903.10820 · 2020-10-21

## TL;DR

This study presents the earliest spectropolarimetric observations of a Type Ia supernova, revealing low polarization levels that support symmetric explosion models and challenge merger-induced scenarios.

## Contribution

It provides the earliest spectropolarimetric data for a Type Ia supernova, offering new insights into explosion symmetry and progenitor models.

## Key findings

- Low continuum polarization suggests spherical symmetry.
- Moderate line polarization indicates some asymmetry in ejecta.
- Results favor delayed detonation models over merger scenarios.

## Abstract

The non-detection of companion stars in Type Ia supernova (SN) progenitor systems lends support to the notion of double-degenerate (DD) systems and explosions triggered by the merging of two white dwarfs. This very asymmetric process should lead to a conspicuous polarimetric signature. By contrast, observations consistently find very low continuum polarization as the signatures from the explosion process largely dominate over the pre-explosion configuration within several days. Critical information about the interaction of the ejecta with a companion and any circumstellar matter is encoded in the early polarization spectra. In this study, we obtain spectropolarimetry of SN\,2018gv with the ESO Very Large Telescope at $-$13.6 days relative to the $B-$band maximum light, or $\sim$5 days after the estimated explosion --- the earliest spectropolarimetric observations to date of any Type Ia SN. These early observations still show a low continuum polarization ($\lesssim$0.2\%) and moderate line polarization (0.30$\pm$0.04\% for the prominent \ion{Si}{2} $\lambda$6355 feature and 0.85$\pm$0.04\% for the high-velocity Ca component). The high degree of spherical symmetry implied by the low line and continuum polarization at this early epoch is consistent with explosion models of delayed detonations and is inconsistent with the merger-induced explosion scenario. The dense UV and optical photometry and optical spectroscopy within the first $\sim$100 days after the maximum light indicate that SN\,2018gv is a normal Type Ia SN with similar spectrophotometric behavior to SN\,2011fe.

## Full text

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## Figures

30 figures with captions in the complete paper: https://tomesphere.com/paper/1903.10820/full.md

## References

190 references — full list in the complete paper: https://tomesphere.com/paper/1903.10820/full.md

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Source: https://tomesphere.com/paper/1903.10820