SN 2014C: A Metamorphic Supernova Exploded in the Intricate and Hydrogen-rich Surroundings

We present photometric and spectroscopic observations of supernova (SN) SN 2014C, primarily emphasizing the initial month after the explosion at approximately daily intervals. During this time, it was classified as a Type Ib SN exhibiting a notably higher peak luminosity ( L peak  ≈ 4.3 × 10 42 erg...

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Published inThe Astrophysical journal Vol. 978; no. 2; pp. 163 - 181
Main Authors Zhai, Qian, Zhang, Jujia, Lin, Weili, Mazzali, Paolo, Pian, Elena, Benetti, Stefano, Tomasella, Lina, Liu, Jialian, Li, Liping
Format Journal Article
LanguageEnglish
Published The American Astronomical Society 10.01.2025
IOP Publishing
Subjects
Core-collapse supernovae
Supernovae
Type Ib supernovae
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Abstract We present photometric and spectroscopic observations of supernova (SN) SN 2014C, primarily emphasizing the initial month after the explosion at approximately daily intervals. During this time, it was classified as a Type Ib SN exhibiting a notably higher peak luminosity ( L peak  ≈ 4.3 × 10 42 erg s −1 ), a faster rise to brightness ( t rise  ≈ 11.6 days), and a more gradual dimming ( Δ m 15 V ≈ 0.48 mag) compared to typical Type Ib SNe. Analysis of the velocity evolution over the first ~20 days after the explosion supports the view that the absorption near 6200 Å is due to high-velocity H α in the outer layers of the ejecta, indicating the presence of a small amount of hydrogen in the envelope of the progenitor before the explosion. Assuming that the peak luminosity is entirely attributed to radioactive decay, we estimate that 0.14 M ⊙  of 56 Ni was synthesized in the explosion. However, this amount of nickel could no longer maintain observed brightness approximately 10 days after peak luminosity, suggesting additional energy sources beyond radioactive decay. This supplementary energy likely originates from interaction with the circumstellar medium (CSM). Consequently, the timing of the SN−CSM interaction in SN 2014C may occur much earlier than the emergence of Type IIn−like features during the nebular phase.
AbstractList We present photometric and spectroscopic observations of supernova (SN) SN 2014C, primarily emphasizing the initial month after the explosion at approximately daily intervals. During this time, it was classified as a Type Ib SN exhibiting a notably higher peak luminosity ( L peak  ≈ 4.3 × 10 42 erg s −1 ), a faster rise to brightness ( t rise  ≈ 11.6 days), and a more gradual dimming ( Δ m 15 V ≈ 0.48 mag) compared to typical Type Ib SNe. Analysis of the velocity evolution over the first ~20 days after the explosion supports the view that the absorption near 6200 Å is due to high-velocity H α in the outer layers of the ejecta, indicating the presence of a small amount of hydrogen in the envelope of the progenitor before the explosion. Assuming that the peak luminosity is entirely attributed to radioactive decay, we estimate that 0.14 M ⊙  of 56 Ni was synthesized in the explosion. However, this amount of nickel could no longer maintain observed brightness approximately 10 days after peak luminosity, suggesting additional energy sources beyond radioactive decay. This supplementary energy likely originates from interaction with the circumstellar medium (CSM). Consequently, the timing of the SN−CSM interaction in SN 2014C may occur much earlier than the emergence of Type IIn−like features during the nebular phase.
We present photometric and spectroscopic observations of supernova (SN) SN 2014C, primarily emphasizing the initial month after the explosion at approximately daily intervals. During this time, it was classified as a Type Ib SN exhibiting a notably higher peak luminosity ( L _peak  ≈ 4.3 × 10 ^42 erg s ^−1 ), a faster rise to brightness ( t _rise  ≈ 11.6 days), and a more gradual dimming ( ${\rm{\Delta }}{m}_{15}^{V}\approx 0.48$ mag) compared to typical Type Ib SNe. Analysis of the velocity evolution over the first ~20 days after the explosion supports the view that the absorption near 6200 Å is due to high-velocity H α in the outer layers of the ejecta, indicating the presence of a small amount of hydrogen in the envelope of the progenitor before the explosion. Assuming that the peak luminosity is entirely attributed to radioactive decay, we estimate that 0.14 M _⊙  of ^56 Ni was synthesized in the explosion. However, this amount of nickel could no longer maintain observed brightness approximately 10 days after peak luminosity, suggesting additional energy sources beyond radioactive decay. This supplementary energy likely originates from interaction with the circumstellar medium (CSM). Consequently, the timing of the SN−CSM interaction in SN 2014C may occur much earlier than the emergence of Type IIn−like features during the nebular phase.
Author Zhai, Qian
Mazzali, Paolo
Lin, Weili
Pian, Elena
Benetti, Stefano
Li, Liping
Liu, Jialian
Tomasella, Lina
Zhang, Jujia
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Snippet We present photometric and spectroscopic observations of supernova (SN) SN 2014C, primarily emphasizing the initial month after the explosion at approximately...
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SubjectTerms Core-collapse supernovae
Supernovae
Type Ib supernovae
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Title SN 2014C: A Metamorphic Supernova Exploded in the Intricate and Hydrogen-rich Surroundings
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