The Galactic WC and WO stars: The impact of revised distances from Gaia DR2 and their role as massive black hole progenitors

A. A.C. Sander; W. R. Hamann; H. Todt; R. Hainich; T. Shenar; V. Ramachandran; L. M. Oskinova

doi:10.1051/0004-6361/201833712

The Galactic WC and WO stars: The impact of revised distances from Gaia DR2 and their role as massive black hole progenitors

A. A.C. Sander^*
, W. R. Hamann
, H. Todt
, R. Hainich
, T. Shenar
, V. Ramachandran
, L. M. Oskinova

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

110 Scopus citations

Abstract

Wolf-Rayet stars of the carbon sequence (WC stars) are an important cornerstone in the late evolution of massive stars before their core collapse. As core-helium burning, hydrogen-free objects with huge mass-loss, they are likely the last observable stage before collapse and thus promising progenitor candidates for type Ib/c supernovae. Their strong mass-loss furthermore provides challenges and constraints to the theory of radiatively driven winds. Thus, the determination of the WC star parameters is of major importance for several astrophysical fields. With Gaia DR2, for the first time parallaxes for a large sample of Galactic WC stars are available, removing major uncertainties inherent to earlier studies. In this work, we re-examine a previously studied sample of WC stars to derive key properties of the Galactic WC population. All quantities depending on the distance are updated, while the underlying spectral analyzes remain untouched. Contrasting earlier assumptions, our study yields that WC stars of the same subtype can significantly vary in absolute magnitude. With Gaia DR2, the picture of the Galactic WC population becomes more complex: We obtain luminosities ranging from logL/L _⊙ = 4.9-6.0 with one outlier (WR 119) having logL/L _⊙ = 4.7. This indicates that the WC stars are likely formed from a broader initial mass range than previously assumed. We obtain mass-loss rates ranging between log M = -5.1 and -4.1, with M ∝ L ^0.68 and a linear scaling of the modified wind momentum with luminosity. We discuss the implications for stellar evolution, including unsolved issues regarding the need of envelope inflation to address the WR radius problem, and the open questions in regard to the connection of WR stars with Gamma-ray bursts. WC and WO stars are progenitors of massive black holes, collapsing either silently or in a supernova that most-likely has to be preceded by a WO stage.

Original language	English
Article number	A92
Journal	Astronomy and Astrophysics
Volume	621
DOIs	https://doi.org/10.1051/0004-6361/201833712
State	Published - 1 Jan 2019
Externally published	Yes

Funding

Funders	Funder number
Deutscher Akademischer Austauschdienst
European Union’s DLV_772225_MULTIPLES Horizon 2020 research and innovation program
European Research Council
UK Research and Innovation
Horizon 2020 Framework Programme	772225
Deutsches Zentrum für Luft- und Raumfahrt	50 OR 1809
Deutsche Forschungsgemeinschaft	HA 1455/26
STFC	ST/R000565/1

Keywords

Galaxy: Stellar content
Stars: Distances
Stars: Evolution
Stars: Mass-loss
Stars: Massive
Stars: Wolf-Rayet

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10.1051/0004-6361/201833712

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title = "The Galactic WC and WO stars: The impact of revised distances from Gaia DR2 and their role as massive black hole progenitors",

abstract = " Wolf-Rayet stars of the carbon sequence (WC stars) are an important cornerstone in the late evolution of massive stars before their core collapse. As core-helium burning, hydrogen-free objects with huge mass-loss, they are likely the last observable stage before collapse and thus promising progenitor candidates for type Ib/c supernovae. Their strong mass-loss furthermore provides challenges and constraints to the theory of radiatively driven winds. Thus, the determination of the WC star parameters is of major importance for several astrophysical fields. With Gaia DR2, for the first time parallaxes for a large sample of Galactic WC stars are available, removing major uncertainties inherent to earlier studies. In this work, we re-examine a previously studied sample of WC stars to derive key properties of the Galactic WC population. All quantities depending on the distance are updated, while the underlying spectral analyzes remain untouched. Contrasting earlier assumptions, our study yields that WC stars of the same subtype can significantly vary in absolute magnitude. With Gaia DR2, the picture of the Galactic WC population becomes more complex: We obtain luminosities ranging from logL/L ⊙ = 4.9-6.0 with one outlier (WR 119) having logL/L ⊙ = 4.7. This indicates that the WC stars are likely formed from a broader initial mass range than previously assumed. We obtain mass-loss rates ranging between log M = -5.1 and -4.1, with M ∝ L 0.68 and a linear scaling of the modified wind momentum with luminosity. We discuss the implications for stellar evolution, including unsolved issues regarding the need of envelope inflation to address the WR radius problem, and the open questions in regard to the connection of WR stars with Gamma-ray bursts. WC and WO stars are progenitors of massive black holes, collapsing either silently or in a supernova that most-likely has to be preceded by a WO stage.",

keywords = "Galaxy: Stellar content, Stars: Distances, Stars: Evolution, Stars: Mass-loss, Stars: Massive, Stars: Wolf-Rayet",

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note = "Publisher Copyright: {\textcopyright} ESO 2019.",

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doi = "10.1051/0004-6361/201833712",

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TY - JOUR

T1 - The Galactic WC and WO stars

T2 - The impact of revised distances from Gaia DR2 and their role as massive black hole progenitors

AU - Sander, A. A.C.

AU - Hamann, W. R.

AU - Todt, H.

AU - Hainich, R.

AU - Shenar, T.

AU - Ramachandran, V.

AU - Oskinova, L. M.

N1 - Publisher Copyright: © ESO 2019.

PY - 2019/1/1

Y1 - 2019/1/1

N2 - Wolf-Rayet stars of the carbon sequence (WC stars) are an important cornerstone in the late evolution of massive stars before their core collapse. As core-helium burning, hydrogen-free objects with huge mass-loss, they are likely the last observable stage before collapse and thus promising progenitor candidates for type Ib/c supernovae. Their strong mass-loss furthermore provides challenges and constraints to the theory of radiatively driven winds. Thus, the determination of the WC star parameters is of major importance for several astrophysical fields. With Gaia DR2, for the first time parallaxes for a large sample of Galactic WC stars are available, removing major uncertainties inherent to earlier studies. In this work, we re-examine a previously studied sample of WC stars to derive key properties of the Galactic WC population. All quantities depending on the distance are updated, while the underlying spectral analyzes remain untouched. Contrasting earlier assumptions, our study yields that WC stars of the same subtype can significantly vary in absolute magnitude. With Gaia DR2, the picture of the Galactic WC population becomes more complex: We obtain luminosities ranging from logL/L ⊙ = 4.9-6.0 with one outlier (WR 119) having logL/L ⊙ = 4.7. This indicates that the WC stars are likely formed from a broader initial mass range than previously assumed. We obtain mass-loss rates ranging between log M = -5.1 and -4.1, with M ∝ L 0.68 and a linear scaling of the modified wind momentum with luminosity. We discuss the implications for stellar evolution, including unsolved issues regarding the need of envelope inflation to address the WR radius problem, and the open questions in regard to the connection of WR stars with Gamma-ray bursts. WC and WO stars are progenitors of massive black holes, collapsing either silently or in a supernova that most-likely has to be preceded by a WO stage.

AB - Wolf-Rayet stars of the carbon sequence (WC stars) are an important cornerstone in the late evolution of massive stars before their core collapse. As core-helium burning, hydrogen-free objects with huge mass-loss, they are likely the last observable stage before collapse and thus promising progenitor candidates for type Ib/c supernovae. Their strong mass-loss furthermore provides challenges and constraints to the theory of radiatively driven winds. Thus, the determination of the WC star parameters is of major importance for several astrophysical fields. With Gaia DR2, for the first time parallaxes for a large sample of Galactic WC stars are available, removing major uncertainties inherent to earlier studies. In this work, we re-examine a previously studied sample of WC stars to derive key properties of the Galactic WC population. All quantities depending on the distance are updated, while the underlying spectral analyzes remain untouched. Contrasting earlier assumptions, our study yields that WC stars of the same subtype can significantly vary in absolute magnitude. With Gaia DR2, the picture of the Galactic WC population becomes more complex: We obtain luminosities ranging from logL/L ⊙ = 4.9-6.0 with one outlier (WR 119) having logL/L ⊙ = 4.7. This indicates that the WC stars are likely formed from a broader initial mass range than previously assumed. We obtain mass-loss rates ranging between log M = -5.1 and -4.1, with M ∝ L 0.68 and a linear scaling of the modified wind momentum with luminosity. We discuss the implications for stellar evolution, including unsolved issues regarding the need of envelope inflation to address the WR radius problem, and the open questions in regard to the connection of WR stars with Gamma-ray bursts. WC and WO stars are progenitors of massive black holes, collapsing either silently or in a supernova that most-likely has to be preceded by a WO stage.

KW - Galaxy: Stellar content

KW - Stars: Distances

KW - Stars: Evolution

KW - Stars: Mass-loss

KW - Stars: Massive

KW - Stars: Wolf-Rayet

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DO - 10.1051/0004-6361/201833712

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JF - Astronomy and Astrophysics

M1 - A92

ER -

The Galactic WC and WO stars: The impact of revised distances from Gaia DR2 and their role as massive black hole progenitors

Abstract

Funding

Keywords

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