2022
DOI: 10.3847/1538-4357/ac5fa6
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Seven Years of SN 2014C: A Multiwavelength Synthesis of an Extraordinary Supernova

Abstract: SN 2014C was originally classified as a Type Ib supernova, but at phase ϕ = 127 days, post-explosion strong Hα emission was observed. SN 2014C has since been observed in radio, infrared, optical and X-ray bands. Here we present new optical spectroscopic and photometric data spanning ϕ = 947–2494 days post-explosion. We address the evolution of the broadened Hα emission line, as well as broad [O iii] emission and other lines. We also conduct a parallel analysis of all publicly available multiwavelength data. … Show more

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Cited by 13 publications
(15 citation statements)
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“…While the present paper was in an advanced stage of preparation, the paper by Thomas et al (2022) appeared on the arXiv presenting the data from our extensive soft and hard-X-ray campaign of SN 2014C. We comment as appropriate in the remainder of the paper on differences between our analysis and the independent one of Thomas et al (2022). A key difference between the two analyses is that our approach accounts for background contamination at higher energies and therefore produces a more accurate model.…”
Section: Soft and Hard X-ray Observationsmentioning
confidence: 99%
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“…While the present paper was in an advanced stage of preparation, the paper by Thomas et al (2022) appeared on the arXiv presenting the data from our extensive soft and hard-X-ray campaign of SN 2014C. We comment as appropriate in the remainder of the paper on differences between our analysis and the independent one of Thomas et al (2022). A key difference between the two analyses is that our approach accounts for background contamination at higher energies and therefore produces a more accurate model.…”
Section: Soft and Hard X-ray Observationsmentioning
confidence: 99%
“…For consistency, we also reanalyze the X-ray data acquired at δt < 500 days, which we originally published in Margutti et al (2017). While the present paper was in an advanced stage of preparation, the paper by Thomas et al (2022) appeared on the arXiv presenting the data from our extensive soft and hard-X-ray campaign of SN 2014C. We comment as appropriate in the remainder of the paper on differences between our analysis and the independent one of Thomas et al (2022).…”
Section: Soft and Hard X-ray Observationsmentioning
confidence: 99%
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“…However, contrary to previous works on explosive CE transients (e.g., Soker et al 2019;Schrøder et al 2020), we do not assume the BH/NS immediately merges with the stellar core. Events of the latter type, as a result of the lingering presence of the slowly evacuating massive giant envelope, may give rise to a luminous Type II/IIn SN (Chevalier 2012;Dong et al 2021) or a Type Ib or Ic SN that transforms into a Type IIn (e.g., Tinyanont et al 2016;Chen et al 2018;Thomas et al 2022). Such prompt core merger explosions are not however likely to account for the strongly H-depleted CSM which characterizes LFBOTs (e.g., Fox & Smith 2019) much less Type Ibn/Icn SNe (e.g., Dessart et al 2021).…”
Section: Dynamical Common Envelope Phasementioning
confidence: 99%
“…In Section 5.1 we discussed one idea for how such a disc may arise, but given the observed diversity of CSM mass, radial structure, and geometry seen in interacting SNe (Smith 2017), there must be a variety of ways to produce such a CSM disc (Smith & Arnett 2014). A similar CSM geometry for the type Ib SN2014C showed late-time interaction with H-rich CSM (Brethauer et al 2022b;Thomas et al 2022). Smith et al (2015) proposed a scenario intended to explain the event PTF11iqb, wherein the expanding SN ejecta expand above and below the equator and completely engulf the disc, but where strong CSM interaction in the equatorial plane continues deep inside the SN ejecta photosphere.…”
Section: Sn Ejecta Running Into Discmentioning
confidence: 99%