Type II supernovae as probes of environment metallicity: observations of host He II regions
Author
dc.contributor.author
Anderson, J. P.
Author
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Gutiérrez, C. P.
Author
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Dessart, L.
Author
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Hamuy Wackenhut, Mario
Author
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Galbany, Lluis
Author
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Morrell, N. I.
Author
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Stritzinger, M. D.
Author
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Phillips, M. M.
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Folatelli, Gastón
Author
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Boffin, H. M. J.
Author
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De Jaeger, Thomas
Author
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Kuncarayakti, Hanindyo
Author
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Prieto, J. L.
Admission date
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2016-11-18T15:28:08Z
Available date
dc.date.available
2016-11-18T15:28:08Z
Publication date
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2016
Cita de ítem
dc.identifier.citation
A&A 589, A110 (2016)
es_ES
Identifier
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10.1051/0004-6361/201527691
Identifier
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https://repositorio.uchile.cl/handle/2250/141270
Abstract
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Context. Spectral modelling of type II supernova atmospheres indicates a clear dependence of metal line strengths on progenitor metallicity. This dependence motivates further work to evaluate the accuracy with which these supernovae can be used as environment metallicity indicators.
Aims. To assess this accuracy we present a sample of type II supernova host H II-region spectroscopy, from which environment oxygen abundances have been derived. These environment abundances are compared to the observed strength of metal lines in supernova spectra.
Methods. Combining our sample with measurements from the literature, we present oxygen abundances of 119 host H II regions by extracting emission line fluxes and using abundance diagnostics. These abundances are then compared to equivalent widths of Fe II 5018 angstrom at various time and colour epochs.
Results. Our distribution of inferred type II supernova host H II -region abundances has a range of similar to 0.6 dex. We confirm the dearth of type II supernovae exploding at metallicities lower than those found (on average) in the Large Magellanic Cloud. The equivalent width of Fe II 5018 angstrom at 50 days post-explosion shows a statistically significant correlation with host H II-region oxygen abundance. The strength of this correlation increases if one excludes abundance measurements derived far from supernova explosion sites. The correlation significance also increases if we only analyse a "gold" IIP sample, and if a colour epoch is used in place of time. In addition, no evidence is found of a correlation between progenitor metallicity and supernova light-curve or spectral properties except for that stated above with respect to Fe i i 5018 angstrom equivalent widths - suggesting progenitor metallicity is not a driving factor in producing the diversity that is observed in our sample.
Conclusions. This study provides observational evidence of the usefulness of type II supernovae as metallicity indicators. We finish with a discussion of the methodology needed to use supernova spectra as independent metallicity diagnostics throughout the Universe.
es_ES
Patrocinador
dc.description.sponsorship
Ministry of Economy, Development, and Tourism's Millennium Science Initiative
IC120009
CONICYT through FONDECYT
3140566
3140563
Agence Nationale de la Recherche
ANR-2011-Blanc-BS56-0007
National Science Foundation
AST0306969
AST0607438
AST1008343
Danish Agency for Science and Technology and Innovation
National Aeronautics