# ALMA spectral survey of Supernova 1987A --- molecular inventory,   chemistry, dynamics and explosive nucleosynthesis

**Authors:** M. Matsuura (1,2), R. Indebetouw (3,4), S. Woosley (5), V. Bujarrabal, (6), F.J. Abellan (7), R. McCray (8), J. Kamenetzky (9), C. Fransson (10), M., J. Barlow (2), H.L. Gomez (1), P. Cigan (1), I De Looze (2), J. Spyromilio, (11), L. Staveley-Smith (12,13), G. Zanardo (12), P. Roche (14), J. Larsson, (15), S. Viti (2), J.Th. van Loon (16), J.C. Wheeler (17), M. Baes (18), R., Chevalier (3), P. Lundqvist (10), J. M. Marcaide (7), E. Dwek (19), M., Meixner (20,21), C.-Y. Ng (22), G. Sonneborn (19), J. Yates (2) ((1) Cardiff, University, UK, (2) University College London, UK, (3) University of, Virginia, USA, (4) National Radio Astronomy Observatory, USA, (5) University, of California, Santa Cruz, USA, (6) Observatorio Astronomico Nacional, (OAN-IGN), Spain, (7) Universidad de Valencia, Spain, (8) University of, California, Berkeley, USA, (9) Westminster College, Salt Lake City, USA, (10), Stockholm University, Sweden, (11) European Southern Observatory (ESO),, Garching, Germany, (12) The University of Western Australia, Australia, (13), ARC Centre of Excellence for All-Sky Astrophysics (CAASTRO), Australia, (14), University of Oxford, UK, (15) Oskar Klein Centre, AlbaNova, Sweden, (16), Keele University, UK, (17) University of Texas, Austin, USA, (18), Universiteit Gent, Belgium, (19) NASA Goddard Space Flight Center, USA, (20), Space Telescope Science Institute, USA, (21) Johns Hopkins University, USA,, (22) University of Hong Kong, Hong Kong, China)

arXiv: 1704.02324 · 2017-07-26

## TL;DR

This study presents the first millimetre wavelength molecular line survey of Supernova 1987A using ALMA, revealing molecular composition, ejecta morphology, and nucleosynthesis insights in a young supernova remnant.

## Contribution

It provides the first identification of molecules like HCO+ and SO in a supernova remnant and links observed line profiles to hydrodynamic models of ejecta mixing.

## Key findings

- Detection of CO, SiO, HCO+, SO in SN 1987A
- Ejecta morphology likely elongated due to Rayleigh-Taylor instabilities
- Isotopologue ratios support low metallicity nucleosynthesis models

## Abstract

We report the first molecular line survey of Supernova 1987A in the millimetre wavelength range. In the ALMA 210--300 and 340--360 GHz spectra, we detected cold (20--170 K) CO, 28SiO, HCO+ and SO, with weaker lines of 29SiO from ejecta. This is the first identification of HCO+ and SO in a young supernova remnant. We find a dip in the J=6--5 and 5--4 SiO line profiles, suggesting that the ejecta morphology is likely elongated. The difference of the CO and SiO line profiles is consistent with hydrodynamic simulations, which show that Rayleigh-Taylor instabilities cause mixing of gas, with heavier elements much more disturbed, making more elongated structure. We obtained isotopologue ratios of 28SiO/29SiO>13, 28SiO/30SiO>14, and 12CO/13CO>21, with the most likely limits of 28SiO/29SiO>128, 28SiO/30SiO>189. Low 29Si and 30Si abundances in SN 1987A are consistent with nucleosynthesis models that show inefficient formation of neutron-rich isotopes in a low metallicity environment, such as the Large Magellanic Cloud. The deduced large mass of HCO+ (~5x10^-6 Msun) and small SiS mass (<6x10^-5 Msun) might be explained by some mixing of elements immediately after the explosion. The mixing might have caused some hydrogen from the envelope to sink into carbon and oxygen-rich zones after the explosion, enabling the formation of a substantial mass of HCO+. Oxygen atoms may have penetrated into silicon and sulphur zones, suppressing formation of SiS. Our ALMA observations open up a new window to investigate chemistry, dynamics and explosive-nucleosynthesis in supernovae.

## Full text

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## Figures

20 figures with captions in the complete paper: https://tomesphere.com/paper/1704.02324/full.md

## References

104 references — full list in the complete paper: https://tomesphere.com/paper/1704.02324/full.md

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Source: https://tomesphere.com/paper/1704.02324