JWST Reveals a Luminous Infrared Source at the Position of the Failed Supernova Candidate N6946-BH1

N6946-BH1 (BH1) is the first plausible candidate for a failed supernova (SN), a peculiar event in which a massive star disappears without the expected bright SN, accompanied by collapse into a black hole (BH). Following a luminous outburst in 2009, the source experienced a significant decline in opt...

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Veröffentlicht in:	The Astrophysical journal 2024-04, Vol.964 (2), p.171
Hauptverfasser:	Beasor, Emma R., Hosseinzadeh, Griffin, Smith, Nathan, Davies, Ben, Jencson, Jacob E., Pearson, Jeniveve, Sand, David J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Aromatic hydrocarbons Black holes Brightness Core-collapse supernovae Galaxies Infrared astronomy James Webb Space Telescope Luminosity Massive stars Near ultraviolet radiation Polycyclic aromatic hydrocarbons Spectral energy distribution Star mergers Stellar evolution Supernova Supernovae Ultraviolet radiation
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description	N6946-BH1 (BH1) is the first plausible candidate for a failed supernova (SN), a peculiar event in which a massive star disappears without the expected bright SN, accompanied by collapse into a black hole (BH). Following a luminous outburst in 2009, the source experienced a significant decline in optical brightness, while maintaining a persistent IR presence. While it was proposed to be a potential failed SN, such behavior has been observed in SN impostor events in nearby galaxies. Here, we present late-time observations of BH1, taken 14 yr after disappearance, using JWST’s NIRCam and MIRI instruments to probe a never before observed region of the object’s spectral energy distribution (SED). We show for the first time that all previous observations of BH1 (pre- and postdisappearance) are actually a blend of at least three sources. In the near-infrared, BH1 is notably fainter than the progenitor but retains similar brightness to its state in 2017. In the mid-infrared the flux appears to have brightened compared to the inferred fluxes from the best-fitting progenitor model. The total luminosity of the source is between 13% and 25% that of the progenitor. We also show that the IR SED appears consistent with polycyclic aromatic hydrocarbon features that arise when dust is illuminated by near-ultraviolet radiation. At present, the interpretation of BH1 remains uncertain. The observations match expectations for a stellar merger, but theoretical ambiguity in the failed SN hypothesis makes it hard to dismiss.
doi_str_mv	10.3847/1538-4357/ad21fa
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In the mid-infrared the flux appears to have brightened compared to the inferred fluxes from the best-fitting progenitor model. The total luminosity of the source is between 13% and 25% that of the progenitor. We also show that the IR SED appears consistent with polycyclic aromatic hydrocarbon features that arise when dust is illuminated by near-ultraviolet radiation. At present, the interpretation of BH1 remains uncertain. 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subjects	Aromatic hydrocarbons Black holes Brightness Core-collapse supernovae Galaxies Infrared astronomy James Webb Space Telescope Luminosity Massive stars Near ultraviolet radiation Polycyclic aromatic hydrocarbons Spectral energy distribution Star mergers Stellar evolution Supernova Supernovae Ultraviolet radiation
title	JWST Reveals a Luminous Infrared Source at the Position of the Failed Supernova Candidate N6946-BH1
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