On the progenitor of the type II-plateau SN 2008cn in NGC 4603

Nancy Elias-Rosa; Schuyler D. Van Dyk; Weidong Li; Nidia Morrell; Sergio Gonzalez; Mario Hamuy; Alexei V. Filippenko; Jean Charles Cuillandre; Ryan J. Foley; Nathan Smith

doi:10.1088/0004-637X/706/2/1174

On the progenitor of the type II-plateau SN 2008cn in NGC 4603

Nancy Elias-Rosa, Schuyler D. Van Dyk, Weidong Li, Nidia Morrell, Sergio Gonzalez, Mario Hamuy, Alexei V. Filippenko, Jean Charles Cuillandre, Ryan J. Foley, Nathan Smith

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

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Abstract

A trend is emerging regarding the progenitor stars that give rise to the most common core-collapse supernovae (SNe), those of Type II-Plateau (II-P): they generally appear to be red supergiants with a limited range of initial masses, ∼8-16 M_·. Here, we consider another example, SN 2008cn, in the nearly face-on spiral galaxy NGC4603. Even with limited photometric data, it appears that SN 2008cn is not a normal SN II-P, but is of the high-luminosity subclass. Through comparison of pre- and post-explosion images obtained with the Wide Field and Planetary Camera 2 on board the Hubble Space Telescope, we have isolated a supergiant star prior to explosion at nearly the same position as the SN. We provide evidence that this supergiant may well be the progenitor of the SN, although this identification is not entirely unambiguous. This is exacerbated by the distance to the host galaxy, 33.3 Mpc, making SN 2008cn the most distant SN II-P yet for which an attempt has been made to identify a progenitor star in pre-SN images. The progenitor candidate has a more yellow color ([V - I]₀ = 0.98 mag and T_eff = 5200 300 K) than generally would be expected and, if a single star, would require that it exploded during a "blue loop" evolutionary phase, which is theoretically not expected to occur. Nonetheless, we estimate an initial mass of M_ini = 15 ±2 _· for this star, which is within the expected mass range for SN II-P progenitors. The yellower color could also arise from the blend of two or more stars, such as a red supergiant and a brighter, blue supergiant. Such a red supergiant hidden in this blend could instead be the progenitor and would also have an initial mass within the expected progenitor mass range. Furthermore, the yellow supergiant could be in a massive, interacting binary system, analogous to the possible yellow supergiant progenitor of the high-luminosity SN II-P 2004et. Finally, if the yellow supergiant is not the progenitor, or is not a stellar blend or binary containing the progenitor, then we constrain any undetected progenitor star to be a red supergiant with M_ini ≲ 11 M_·, considering a physically more realistic scenario of explosion at the model endpoint luminosity for a rotating star.

Original language	English (US)
Pages (from-to)	1174-1183
Number of pages	10
Journal	Astrophysical Journal
Volume	706
Issue number	2
DOIs	https://doi.org/10.1088/0004-637X/706/2/1174
State	Published - Dec 1 2009
Externally published	Yes

Keywords

Galaxies: individual (NGC 4603)
Stars: evolution
Supernovae: general
Supernovae: individual (SN 2008cn)

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1088/0004-637X/706/2/1174

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title = "On the progenitor of the type II-plateau SN 2008cn in NGC 4603",

abstract = "A trend is emerging regarding the progenitor stars that give rise to the most common core-collapse supernovae (SNe), those of Type II-Plateau (II-P): they generally appear to be red supergiants with a limited range of initial masses, ∼8-16 M·. Here, we consider another example, SN 2008cn, in the nearly face-on spiral galaxy NGC4603. Even with limited photometric data, it appears that SN 2008cn is not a normal SN II-P, but is of the high-luminosity subclass. Through comparison of pre- and post-explosion images obtained with the Wide Field and Planetary Camera 2 on board the Hubble Space Telescope, we have isolated a supergiant star prior to explosion at nearly the same position as the SN. We provide evidence that this supergiant may well be the progenitor of the SN, although this identification is not entirely unambiguous. This is exacerbated by the distance to the host galaxy, 33.3 Mpc, making SN 2008cn the most distant SN II-P yet for which an attempt has been made to identify a progenitor star in pre-SN images. The progenitor candidate has a more yellow color ([V - I]0 = 0.98 mag and Teff = 5200 300 K) than generally would be expected and, if a single star, would require that it exploded during a {"}blue loop{"} evolutionary phase, which is theoretically not expected to occur. Nonetheless, we estimate an initial mass of Mini = 15 ±2 · for this star, which is within the expected mass range for SN II-P progenitors. The yellower color could also arise from the blend of two or more stars, such as a red supergiant and a brighter, blue supergiant. Such a red supergiant hidden in this blend could instead be the progenitor and would also have an initial mass within the expected progenitor mass range. Furthermore, the yellow supergiant could be in a massive, interacting binary system, analogous to the possible yellow supergiant progenitor of the high-luminosity SN II-P 2004et. Finally, if the yellow supergiant is not the progenitor, or is not a stellar blend or binary containing the progenitor, then we constrain any undetected progenitor star to be a red supergiant with Mini ≲ 11 M·, considering a physically more realistic scenario of explosion at the model endpoint luminosity for a rotating star.",

keywords = "Galaxies: individual (NGC 4603), Stars: evolution, Supernovae: general, Supernovae: individual (SN 2008cn)",

author = "Nancy Elias-Rosa and {Van Dyk}, {Schuyler D.} and Weidong Li and Nidia Morrell and Sergio Gonzalez and Mario Hamuy and Filippenko, {Alexei V.} and Cuillandre, {Jean Charles} and Foley, {Ryan J.} and Nathan Smith",

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doi = "10.1088/0004-637X/706/2/1174",

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T1 - On the progenitor of the type II-plateau SN 2008cn in NGC 4603

AU - Elias-Rosa, Nancy

AU - Van Dyk, Schuyler D.

AU - Li, Weidong

AU - Morrell, Nidia

AU - Gonzalez, Sergio

AU - Hamuy, Mario

AU - Filippenko, Alexei V.

AU - Cuillandre, Jean Charles

AU - Foley, Ryan J.

AU - Smith, Nathan

PY - 2009/12/1

Y1 - 2009/12/1

N2 - A trend is emerging regarding the progenitor stars that give rise to the most common core-collapse supernovae (SNe), those of Type II-Plateau (II-P): they generally appear to be red supergiants with a limited range of initial masses, ∼8-16 M·. Here, we consider another example, SN 2008cn, in the nearly face-on spiral galaxy NGC4603. Even with limited photometric data, it appears that SN 2008cn is not a normal SN II-P, but is of the high-luminosity subclass. Through comparison of pre- and post-explosion images obtained with the Wide Field and Planetary Camera 2 on board the Hubble Space Telescope, we have isolated a supergiant star prior to explosion at nearly the same position as the SN. We provide evidence that this supergiant may well be the progenitor of the SN, although this identification is not entirely unambiguous. This is exacerbated by the distance to the host galaxy, 33.3 Mpc, making SN 2008cn the most distant SN II-P yet for which an attempt has been made to identify a progenitor star in pre-SN images. The progenitor candidate has a more yellow color ([V - I]0 = 0.98 mag and Teff = 5200 300 K) than generally would be expected and, if a single star, would require that it exploded during a "blue loop" evolutionary phase, which is theoretically not expected to occur. Nonetheless, we estimate an initial mass of Mini = 15 ±2 · for this star, which is within the expected mass range for SN II-P progenitors. The yellower color could also arise from the blend of two or more stars, such as a red supergiant and a brighter, blue supergiant. Such a red supergiant hidden in this blend could instead be the progenitor and would also have an initial mass within the expected progenitor mass range. Furthermore, the yellow supergiant could be in a massive, interacting binary system, analogous to the possible yellow supergiant progenitor of the high-luminosity SN II-P 2004et. Finally, if the yellow supergiant is not the progenitor, or is not a stellar blend or binary containing the progenitor, then we constrain any undetected progenitor star to be a red supergiant with Mini ≲ 11 M·, considering a physically more realistic scenario of explosion at the model endpoint luminosity for a rotating star.

AB - A trend is emerging regarding the progenitor stars that give rise to the most common core-collapse supernovae (SNe), those of Type II-Plateau (II-P): they generally appear to be red supergiants with a limited range of initial masses, ∼8-16 M·. Here, we consider another example, SN 2008cn, in the nearly face-on spiral galaxy NGC4603. Even with limited photometric data, it appears that SN 2008cn is not a normal SN II-P, but is of the high-luminosity subclass. Through comparison of pre- and post-explosion images obtained with the Wide Field and Planetary Camera 2 on board the Hubble Space Telescope, we have isolated a supergiant star prior to explosion at nearly the same position as the SN. We provide evidence that this supergiant may well be the progenitor of the SN, although this identification is not entirely unambiguous. This is exacerbated by the distance to the host galaxy, 33.3 Mpc, making SN 2008cn the most distant SN II-P yet for which an attempt has been made to identify a progenitor star in pre-SN images. The progenitor candidate has a more yellow color ([V - I]0 = 0.98 mag and Teff = 5200 300 K) than generally would be expected and, if a single star, would require that it exploded during a "blue loop" evolutionary phase, which is theoretically not expected to occur. Nonetheless, we estimate an initial mass of Mini = 15 ±2 · for this star, which is within the expected mass range for SN II-P progenitors. The yellower color could also arise from the blend of two or more stars, such as a red supergiant and a brighter, blue supergiant. Such a red supergiant hidden in this blend could instead be the progenitor and would also have an initial mass within the expected progenitor mass range. Furthermore, the yellow supergiant could be in a massive, interacting binary system, analogous to the possible yellow supergiant progenitor of the high-luminosity SN II-P 2004et. Finally, if the yellow supergiant is not the progenitor, or is not a stellar blend or binary containing the progenitor, then we constrain any undetected progenitor star to be a red supergiant with Mini ≲ 11 M·, considering a physically more realistic scenario of explosion at the model endpoint luminosity for a rotating star.

KW - Galaxies: individual (NGC 4603)

KW - Stars: evolution

KW - Supernovae: general

KW - Supernovae: individual (SN 2008cn)

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On the progenitor of the type II-plateau SN 2008cn in NGC 4603

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