Very Deep inside the SN 1987A Core Ejecta: Molecular Structures Seen in 3D

Most massive stars end their lives in core-collapse supernova explosions and enrich the interstellar medium with explosively nucleosynthesized elements. Following core collapse, the explosion is subject to instabilities as the shock propagates outward through the progenitor star. Observations of the...

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Published inAstrophysical journal. Letters Vol. 842; no. 2; p. L24
Main Authors Abellán, F. J., Indebetouw, R., Marcaide, J. M., Gabler, M., Fransson, C., Spyromilio, J., Burrows, D. N., Chevalier, R., Cigan, P., Gaensler, B. M., Gomez, H. L., Janka, H.-Th, Kirshner, R., Larsson, J., Lundqvist, P., Matsuura, M., McCray, R., Ng, C.-Y., Park, S., Roche, P., Staveley-Smith, L., Loon, J. Th. van, Wheeler, J. C., Woosley, S. E.
Format Journal Article
LanguageEnglish
Published Austin The American Astronomical Society 20.06.2017
IOP Publishing
Subjects
ASTROPHYSICS, COSMOLOGY AND ASTRONOMY
CARBON
CARBON MONOXIDE
Collapse
DISTRIBUTION
Ejecta
EMISSION
EXPLOSIONS
HEATING
HYDRODYNAMICS
Instabilities
INSTABILITY
INTERACTIONS
Interstellar matter
Interstellar medium
ISM: supernova remnants
MAGELLANIC CLOUDS
Massive stars
Molecular gases
MOLECULAR STRUCTURE
Morphology
NICKEL
NUCLEOSYNTHESIS
Radio telescopes
RESOLUTION
SILICON
SILICON OXIDES
Supernova
SUPERNOVA REMNANTS
SUPERNOVAE
supernovae: individual (SN 1987A)
Supernovae: individual (SN 1987A) Supporting material: Animation
Toruses
Online AccessGet full text
ISSN2041-8205
2041-8213
2041-8213
DOI10.3847/2041-8213/aa784c

Cover

Abstract Most massive stars end their lives in core-collapse supernova explosions and enrich the interstellar medium with explosively nucleosynthesized elements. Following core collapse, the explosion is subject to instabilities as the shock propagates outward through the progenitor star. Observations of the composition and structure of the innermost regions of a core-collapse supernova provide a direct probe of the instabilities and nucleosynthetic products. SN 1987A in the Large Magellanic Cloud is one of very few supernovae for which the inner ejecta can be spatially resolved but are not yet strongly affected by interaction with the surroundings. Our observations of SN 1987A with the Atacama Large Millimeter/submillimeter Array are of the highest resolution to date and reveal the detailed morphology of cold molecular gas in the innermost regions of the remnant. The 3D distributions of carbon and silicon monoxide (CO and SiO) emission differ, but both have a central deficit, or torus-like distribution, possibly a result of radioactive heating during the first weeks ("nickel heating"). The size scales of the clumpy distribution are compared quantitatively to models, demonstrating how progenitor and explosion physics can be constrained.
AbstractList Most massive stars end their lives in core-collapse supernova explosions and enrich the interstellar medium with explosively nucleosynthesized elements. Following core collapse, the explosion is subject to instabilities as the shock propagates outward through the progenitor star. Observations of the composition and structure of the innermost regions of a core-collapse supernova provide a direct probe of the instabilities and nucleosynthetic products. SN 1987A in the Large Magellanic Cloud is one of very few supernovae for which the inner ejecta can be spatially resolved but are not yet strongly affected by interaction with the surroundings. Our observations of SN 1987A with the Atacama Large Millimeter/submillimeter Array are of the highest resolution to date and reveal the detailed morphology of cold molecular gas in the innermost regions of the remnant. The 3D distributions of carbon and silicon monoxide (CO and SiO) emission differ, but both have a central deficit, or torus-like distribution, possibly a result of radioactive heating during the first weeks ("nickel heating"). The size scales of the clumpy distribution are compared quantitatively to models, demonstrating how progenitor and explosion physics can be constrained.
Author Park, S.
Kirshner, R.
Matsuura, M.
Larsson, J.
Woosley, S. E.
Roche, P.
Spyromilio, J.
Wheeler, J. C.
McCray, R.
Janka, H.-Th
Cigan, P.
Ng, C.-Y.
Fransson, C.
Gomez, H. L.
Gabler, M.
Gaensler, B. M.
Lundqvist, P.
Staveley-Smith, L.
Burrows, D. N.
Loon, J. Th. van
Marcaide, J. M.
Abellán, F. J.
Indebetouw, R.
Chevalier, R.
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DocumentTitleAlternate Very Deep inside the SN 1987A Core Ejecta: Molecular Structures Seen in 3D
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Snippet Most massive stars end their lives in core-collapse supernova explosions and enrich the interstellar medium with explosively nucleosynthesized elements....
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StartPage L24
SubjectTerms ASTROPHYSICS, COSMOLOGY AND ASTRONOMY
CARBON
CARBON MONOXIDE
Collapse
DISTRIBUTION
Ejecta
EMISSION
EXPLOSIONS
HEATING
HYDRODYNAMICS
Instabilities
INSTABILITY
INTERACTIONS
Interstellar matter
Interstellar medium
ISM: supernova remnants
MAGELLANIC CLOUDS
Massive stars
Molecular gases
MOLECULAR STRUCTURE
Morphology
NICKEL
NUCLEOSYNTHESIS
Radio telescopes
RESOLUTION
SILICON
SILICON OXIDES
Supernova
SUPERNOVA REMNANTS
SUPERNOVAE
supernovae: individual (SN 1987A)
Supernovae: individual (SN 1987A) Supporting material: Animation
Toruses
Title Very Deep inside the SN 1987A Core Ejecta: Molecular Structures Seen in 3D
URI https://iopscience.iop.org/article/10.3847/2041-8213/aa784c
https://www.proquest.com/docview/2365618359
https://www.osti.gov/biblio/22654450
https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-216454
https://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-156766
Volume 842
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