Hubble Space Telescope deep upper limits rule out a surviving massive binary companion to the Type Ic Supernova 2012fh

Benjamin F. Williams; Emmanouil Zapartas; Ori D. Fox; K. Azalee Bostroem; Jianing Su; Brad Koplitz; Schuyler D. Van Dyk; Maria R. Drout; Dimitris Souropanis; Dan Milisavljevic; Stuart D. Ryder; Selma E. de Mink; Nathan Smith; Andrew Dolphin; Alexei V. Filippenko; Jeff J. Andrews; Max M. Briel; Seth Gossage; Matthias U. Kruckow; Camille Liotine; Philipp M. Srivastava; Elizabeth Teng

doi:10.3847/1538-4357/ae0335

Hubble Space Telescope deep upper limits rule out a surviving massive binary companion to the Type Ic Supernova 2012fh

Benjamin F. Williams, Emmanouil Zapartas, Ori D. Fox, K. Azalee Bostroem, Jianing Su, Brad Koplitz, Schuyler D. Van Dyk, Maria R. Drout, Dimitris Souropanis, Dan Milisavljevic, Stuart D. Ryder, Selma E. de Mink, Nathan Smith, Andrew Dolphin, Alexei V. Filippenko, Jeff J. Andrews, Max M. Briel, Seth Gossage, Matthias U. Kruckow, Camille LiotinePhilipp M. Srivastava, Elizabeth Teng

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Abstract

Current explanations of the mass-loss mechanism for stripped-envelope supernovae (SNe) remain divided between single and binary progenitor systems. Here we obtain deep ultraviolet (UV) imaging with the Hubble Space Telescope (HST) of the Type Ic SN 2012fh to search for the presence of a surviving companion star to the progenitor. We synthesize these observations with archival HST imaging, ground-based spectroscopy, and previous analyses from the literature to provide three independent constraints on the progenitor system. We fit the color–magnitude diagram of the surrounding population to constrain the most likely age of the system to be <20 Myr. Analysis of spectra of SN 2012fh provides an estimate of the He core mass of the progenitor star, >5.6 M_☉. We analyze deep HST images at the precise location after the SN faded to constrain the luminosity of any remaining main-sequence binary companion to be log(L/L_⊙) 3.35. Combining observational constraints with current binary population synthesis models excludes the presence of a faint stellar companion to SN 2012fh at the ≲10% level. The progenitor was therefore either effectively isolated at the time of explosion or orbited by a black-hole companion. The latter scenario dominates if we only consider models that produce successful SNe.

Original language	English
Article number	159
Pages (from-to)	1-13
Number of pages	13
Journal	The Astrophysical Journal
Volume	993
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/ae0335
Publication status	Published - 10 Nov 2025

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© 2025. The Author(s). Published by the American Astronomical Society. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

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Williams, B. F., Zapartas, E., Fox, O. D., Azalee Bostroem, K., Su, J., Koplitz, B., Van Dyk, S. D., Drout, M. R., Souropanis, D., Milisavljevic, D., Ryder, S. D., de Mink, S. E., Smith, N., Dolphin, A., Filippenko, A. V., Andrews, J. J., Briel, M. M., Gossage, S., Kruckow, M. U., ... Teng, E. (2025). Hubble Space Telescope deep upper limits rule out a surviving massive binary companion to the Type Ic Supernova 2012fh. The Astrophysical Journal, 993(2), 1-13. Article 159. https://doi.org/10.3847/1538-4357/ae0335

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title = "Hubble Space Telescope deep upper limits rule out a surviving massive binary companion to the Type Ic Supernova 2012fh",

abstract = "Current explanations of the mass-loss mechanism for stripped-envelope supernovae (SNe) remain divided between single and binary progenitor systems. Here we obtain deep ultraviolet (UV) imaging with the Hubble Space Telescope (HST) of the Type Ic SN 2012fh to search for the presence of a surviving companion star to the progenitor. We synthesize these observations with archival HST imaging, ground-based spectroscopy, and previous analyses from the literature to provide three independent constraints on the progenitor system. We fit the color–magnitude diagram of the surrounding population to constrain the most likely age of the system to be <20 Myr. Analysis of spectra of SN 2012fh provides an estimate of the He core mass of the progenitor star, >5.6 M☉. We analyze deep HST images at the precise location after the SN faded to constrain the luminosity of any remaining main-sequence binary companion to be log(L/L⊙) 3.35. Combining observational constraints with current binary population synthesis models excludes the presence of a faint stellar companion to SN 2012fh at the ≲10\% level. The progenitor was therefore either effectively isolated at the time of explosion or orbited by a black-hole companion. The latter scenario dominates if we only consider models that produce successful SNe.",

author = "Williams, \{Benjamin F.\} and Emmanouil Zapartas and Fox, \{Ori D.\} and \{Azalee Bostroem\}, K. and Jianing Su and Brad Koplitz and \{Van Dyk\}, \{Schuyler D.\} and Drout, \{Maria R.\} and Dimitris Souropanis and Dan Milisavljevic and Ryder, \{Stuart D.\} and \{de Mink\}, \{Selma E.\} and Nathan Smith and Andrew Dolphin and Filippenko, \{Alexei V.\} and Andrews, \{Jeff J.\} and Briel, \{Max M.\} and Seth Gossage and Kruckow, \{Matthias U.\} and Camille Liotine and Srivastava, \{Philipp M.\} and Elizabeth Teng",

note = "{\textcopyright} 2025. The Author(s). Published by the American Astronomical Society. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.",

year = "2025",

month = nov,

day = "10",

doi = "10.3847/1538-4357/ae0335",

language = "English",

volume = "993",

pages = "1--13",

journal = "The Astrophysical Journal",

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Williams, BF, Zapartas, E, Fox, OD, Azalee Bostroem, K, Su, J, Koplitz, B, Van Dyk, SD, Drout, MR, Souropanis, D, Milisavljevic, D, Ryder, SD, de Mink, SE, Smith, N, Dolphin, A, Filippenko, AV, Andrews, JJ, Briel, MM, Gossage, S, Kruckow, MU, Liotine, C, Srivastava, PM & Teng, E 2025, 'Hubble Space Telescope deep upper limits rule out a surviving massive binary companion to the Type Ic Supernova 2012fh', The Astrophysical Journal, vol. 993, no. 2, 159, pp. 1-13. https://doi.org/10.3847/1538-4357/ae0335

TY - JOUR

T1 - Hubble Space Telescope deep upper limits rule out a surviving massive binary companion to the Type Ic Supernova 2012fh

AU - Williams, Benjamin F.

AU - Zapartas, Emmanouil

AU - Fox, Ori D.

AU - Azalee Bostroem, K.

AU - Su, Jianing

AU - Koplitz, Brad

AU - Van Dyk, Schuyler D.

AU - Drout, Maria R.

AU - Souropanis, Dimitris

AU - Milisavljevic, Dan

AU - Ryder, Stuart D.

AU - de Mink, Selma E.

AU - Smith, Nathan

AU - Dolphin, Andrew

AU - Filippenko, Alexei V.

AU - Andrews, Jeff J.

AU - Briel, Max M.

AU - Gossage, Seth

AU - Kruckow, Matthias U.

AU - Liotine, Camille

AU - Srivastava, Philipp M.

AU - Teng, Elizabeth

N1 - © 2025. The Author(s). Published by the American Astronomical Society. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

PY - 2025/11/10

Y1 - 2025/11/10

N2 - Current explanations of the mass-loss mechanism for stripped-envelope supernovae (SNe) remain divided between single and binary progenitor systems. Here we obtain deep ultraviolet (UV) imaging with the Hubble Space Telescope (HST) of the Type Ic SN 2012fh to search for the presence of a surviving companion star to the progenitor. We synthesize these observations with archival HST imaging, ground-based spectroscopy, and previous analyses from the literature to provide three independent constraints on the progenitor system. We fit the color–magnitude diagram of the surrounding population to constrain the most likely age of the system to be <20 Myr. Analysis of spectra of SN 2012fh provides an estimate of the He core mass of the progenitor star, >5.6 M☉. We analyze deep HST images at the precise location after the SN faded to constrain the luminosity of any remaining main-sequence binary companion to be log(L/L⊙) 3.35. Combining observational constraints with current binary population synthesis models excludes the presence of a faint stellar companion to SN 2012fh at the ≲10% level. The progenitor was therefore either effectively isolated at the time of explosion or orbited by a black-hole companion. The latter scenario dominates if we only consider models that produce successful SNe.

AB - Current explanations of the mass-loss mechanism for stripped-envelope supernovae (SNe) remain divided between single and binary progenitor systems. Here we obtain deep ultraviolet (UV) imaging with the Hubble Space Telescope (HST) of the Type Ic SN 2012fh to search for the presence of a surviving companion star to the progenitor. We synthesize these observations with archival HST imaging, ground-based spectroscopy, and previous analyses from the literature to provide three independent constraints on the progenitor system. We fit the color–magnitude diagram of the surrounding population to constrain the most likely age of the system to be <20 Myr. Analysis of spectra of SN 2012fh provides an estimate of the He core mass of the progenitor star, >5.6 M☉. We analyze deep HST images at the precise location after the SN faded to constrain the luminosity of any remaining main-sequence binary companion to be log(L/L⊙) 3.35. Combining observational constraints with current binary population synthesis models excludes the presence of a faint stellar companion to SN 2012fh at the ≲10% level. The progenitor was therefore either effectively isolated at the time of explosion or orbited by a black-hole companion. The latter scenario dominates if we only consider models that produce successful SNe.

UR - https://www.scopus.com/pages/publications/105028419771

U2 - 10.3847/1538-4357/ae0335

DO - 10.3847/1538-4357/ae0335

M3 - Article

AN - SCOPUS:105028419771

SN - 0004-637X

VL - 993

SP - 1

EP - 13

JO - The Astrophysical Journal

JF - The Astrophysical Journal

IS - 2

M1 - 159

ER -

Hubble Space Telescope deep upper limits rule out a surviving massive binary companion to the Type Ic Supernova 2012fh

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