Very Late-time JWST and Keck Spectra of the Oxygen-rich Supernova 1995N

Geoffrey C. Clayton; R. Wesson; Ori D. Fox; Melissa Shahbandeh; Alexei V. Filippenko; Bryony Nickson; Michael Engesser; Schuyler D. Van Dyk; Wei Kang Zheng; Thomas G. Brink; Yi Yang; Tea Temim; Nathan Smith; Jennifer Andrews; Chris Ashall; Ilse De Looze; James M. Derkacy; Luc Dessart; Michael Dulude; Eli Dwek; Ryan J. Foley; Suvi Gezari; Sebastian Gomez; Shireen Gonzaga; Siva Indukuri; Jacob Jencson; Joel Johansson; Mansi Kasliwal; Zachary G. Lane; Ryan Lau; David Law; Anthony Marston; Dan Milisavljevic; Richard O’Steen; Justin Pierel; Armin Rest; Arkaprabha Sarangi; Matthew Siebert; Michael Skrutskie; Lou Strolger; Tamás Szalai; Samaporn Tinyanont; Qinan Wang; Brian Williams; Lin Xiao; Szanna Zsíros

doi:10.3847/1538-4357/adfc72

Very Late-time JWST and Keck Spectra of the Oxygen-rich Supernova 1995N

Geoffrey C. Clayton
, R. Wesson
, Ori D. Fox
, Melissa Shahbandeh
, Alexei V. Filippenko
, Bryony Nickson
, Michael Engesser
, Schuyler D. Van Dyk
, Wei Kang Zheng
, Thomas G. Brink
, Yi Yang
, Tea Temim
, Nathan Smith
, Jennifer Andrews
, Chris Ashall
, Ilse De Looze
, James M. Derkacy
, Luc Dessart
, Michael Dulude
, Eli Dwek

Ryan J. Foley, Suvi Gezari, Sebastian Gomez, Shireen Gonzaga, Siva Indukuri, Jacob Jencson, Joel Johansson, Mansi Kasliwal, Zachary G. Lane, Ryan Lau, David Law, Anthony Marston, Dan Milisavljevic, Richard O’Steen, Justin Pierel, Armin Rest, Arkaprabha Sarangi, Matthew Siebert, Michael Skrutskie, Lou Strolger, Tamás Szalai, Samaporn Tinyanont, Qinan Wang, Brian Williams, Lin Xiao, Szanna Zsíros

Astrophysical Sciences

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

1 Scopus citations

Abstract

We present new JWST/MIRI Medium Resolution Spectroscopy and Keck spectra of SN 1995N obtained in 2022-2023, more than 10,000 days after the supernova (SN) explosion. These spectra are among the latest direct detections of a core-collapse SN, both through emission lines in the optical and thermal continuum from infrared (IR) dust emission. The new IR data show that dust heating from radiation produced by the ejecta interacting with circumstellar matter is still present but greatly reduced from when SN 1995N was observed by the Spitzer Space Telescope and WISE in 2009/2010 and 2018, when the dust mass was estimated to be 0.4 M_⊙. New radiative-transfer modeling suggests that the dust mass and grain size may have increased between 2010 and 2023. The new data can alternatively be well fit with a dust mass of 0.4 M_⊙ and a much reduced heating source luminosity. The new late-time spectra show unusually strong oxygen forbidden lines, stronger than the Hα emission. This indicates that SN 1995N may have exploded as a stripped-envelope SN, which then interacted with a massive H-rich circumstellar shell, changing it from intrinsically Type Ib/c to Type IIn. The late-time spectrum results when the reverse shock begins to excite the inner H-poor, O-rich ejecta. This change in the spectrum is rarely seen but marks the start of the transition from SN to SN remnant.

Original language	English (US)
Article number	133
Journal	Astrophysical Journal
Volume	991
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/adfc72
State	Published - Oct 1 2025

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/1538-4357/adfc72

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Clayton, G. C., Wesson, R., Fox, O. D., Shahbandeh, M., Filippenko, A. V., Nickson, B., Engesser, M., Van Dyk, S. D., Zheng, W. K., Brink, T. G., Yang, Y., Temim, T., Smith, N., Andrews, J., Ashall, C., De Looze, I., Derkacy, J. M., Dessart, L., Dulude, M., ... Zsíros, S. (2025). Very Late-time JWST and Keck Spectra of the Oxygen-rich Supernova 1995N. Astrophysical Journal, 991(2), Article 133. https://doi.org/10.3847/1538-4357/adfc72

@article{e5ef548d76d9429894b5ddd46e2b78d3,

title = "Very Late-time JWST and Keck Spectra of the Oxygen-rich Supernova 1995N",

abstract = "We present new JWST/MIRI Medium Resolution Spectroscopy and Keck spectra of SN 1995N obtained in 2022-2023, more than 10,000 days after the supernova (SN) explosion. These spectra are among the latest direct detections of a core-collapse SN, both through emission lines in the optical and thermal continuum from infrared (IR) dust emission. The new IR data show that dust heating from radiation produced by the ejecta interacting with circumstellar matter is still present but greatly reduced from when SN 1995N was observed by the Spitzer Space Telescope and WISE in 2009/2010 and 2018, when the dust mass was estimated to be 0.4 M⊙. New radiative-transfer modeling suggests that the dust mass and grain size may have increased between 2010 and 2023. The new data can alternatively be well fit with a dust mass of 0.4 M⊙ and a much reduced heating source luminosity. The new late-time spectra show unusually strong oxygen forbidden lines, stronger than the Hα emission. This indicates that SN 1995N may have exploded as a stripped-envelope SN, which then interacted with a massive H-rich circumstellar shell, changing it from intrinsically Type Ib/c to Type IIn. The late-time spectrum results when the reverse shock begins to excite the inner H-poor, O-rich ejecta. This change in the spectrum is rarely seen but marks the start of the transition from SN to SN remnant.",

author = "Clayton, \{Geoffrey C.\} and R. Wesson and Fox, \{Ori D.\} and Melissa Shahbandeh and Filippenko, \{Alexei V.\} and Bryony Nickson and Michael Engesser and \{Van Dyk\}, \{Schuyler D.\} and Zheng, \{Wei Kang\} and Brink, \{Thomas G.\} and Yi Yang and Tea Temim and Nathan Smith and Jennifer Andrews and Chris Ashall and \{De Looze\}, Ilse and Derkacy, \{James M.\} and Luc Dessart and Michael Dulude and Eli Dwek and Foley, \{Ryan J.\} and Suvi Gezari and Sebastian Gomez and Shireen Gonzaga and Siva Indukuri and Jacob Jencson and Joel Johansson and Mansi Kasliwal and Lane, \{Zachary G.\} and Ryan Lau and David Law and Anthony Marston and Dan Milisavljevic and Richard O{\textquoteright}Steen and Justin Pierel and Armin Rest and Arkaprabha Sarangi and Matthew Siebert and Michael Skrutskie and Lou Strolger and Tam{\'a}s Szalai and Samaporn Tinyanont and Qinan Wang and Brian Williams and Lin Xiao and Szanna Zs{\'i}ros",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s). Published by the American Astronomical Society.",

year = "2025",

month = oct,

day = "1",

doi = "10.3847/1538-4357/adfc72",

language = "English (US)",

volume = "991",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "2",

}

Clayton, GC, Wesson, R, Fox, OD, Shahbandeh, M, Filippenko, AV, Nickson, B, Engesser, M, Van Dyk, SD, Zheng, WK, Brink, TG, Yang, Y, Temim, T, Smith, N, Andrews, J, Ashall, C, De Looze, I, Derkacy, JM, Dessart, L, Dulude, M, Dwek, E, Foley, RJ, Gezari, S, Gomez, S, Gonzaga, S, Indukuri, S, Jencson, J, Johansson, J, Kasliwal, M, Lane, ZG, Lau, R, Law, D, Marston, A, Milisavljevic, D, O’Steen, R, Pierel, J, Rest, A, Sarangi, A, Siebert, M, Skrutskie, M, Strolger, L, Szalai, T, Tinyanont, S, Wang, Q, Williams, B, Xiao, L & Zsíros, S 2025, 'Very Late-time JWST and Keck Spectra of the Oxygen-rich Supernova 1995N', Astrophysical Journal, vol. 991, no. 2, 133. https://doi.org/10.3847/1538-4357/adfc72

TY - JOUR

T1 - Very Late-time JWST and Keck Spectra of the Oxygen-rich Supernova 1995N

AU - Clayton, Geoffrey C.

AU - Wesson, R.

AU - Fox, Ori D.

AU - Shahbandeh, Melissa

AU - Filippenko, Alexei V.

AU - Nickson, Bryony

AU - Engesser, Michael

AU - Van Dyk, Schuyler D.

AU - Zheng, Wei Kang

AU - Brink, Thomas G.

AU - Yang, Yi

AU - Temim, Tea

AU - Smith, Nathan

AU - Andrews, Jennifer

AU - Ashall, Chris

AU - De Looze, Ilse

AU - Derkacy, James M.

AU - Dessart, Luc

AU - Dulude, Michael

AU - Dwek, Eli

AU - Foley, Ryan J.

AU - Gezari, Suvi

AU - Gomez, Sebastian

AU - Gonzaga, Shireen

AU - Indukuri, Siva

AU - Jencson, Jacob

AU - Johansson, Joel

AU - Kasliwal, Mansi

AU - Lane, Zachary G.

AU - Lau, Ryan

AU - Law, David

AU - Marston, Anthony

AU - Milisavljevic, Dan

AU - O’Steen, Richard

AU - Pierel, Justin

AU - Rest, Armin

AU - Sarangi, Arkaprabha

AU - Siebert, Matthew

AU - Skrutskie, Michael

AU - Strolger, Lou

AU - Szalai, Tamás

AU - Tinyanont, Samaporn

AU - Wang, Qinan

AU - Williams, Brian

AU - Xiao, Lin

AU - Zsíros, Szanna

PY - 2025/10/1

Y1 - 2025/10/1

N2 - We present new JWST/MIRI Medium Resolution Spectroscopy and Keck spectra of SN 1995N obtained in 2022-2023, more than 10,000 days after the supernova (SN) explosion. These spectra are among the latest direct detections of a core-collapse SN, both through emission lines in the optical and thermal continuum from infrared (IR) dust emission. The new IR data show that dust heating from radiation produced by the ejecta interacting with circumstellar matter is still present but greatly reduced from when SN 1995N was observed by the Spitzer Space Telescope and WISE in 2009/2010 and 2018, when the dust mass was estimated to be 0.4 M⊙. New radiative-transfer modeling suggests that the dust mass and grain size may have increased between 2010 and 2023. The new data can alternatively be well fit with a dust mass of 0.4 M⊙ and a much reduced heating source luminosity. The new late-time spectra show unusually strong oxygen forbidden lines, stronger than the Hα emission. This indicates that SN 1995N may have exploded as a stripped-envelope SN, which then interacted with a massive H-rich circumstellar shell, changing it from intrinsically Type Ib/c to Type IIn. The late-time spectrum results when the reverse shock begins to excite the inner H-poor, O-rich ejecta. This change in the spectrum is rarely seen but marks the start of the transition from SN to SN remnant.

AB - We present new JWST/MIRI Medium Resolution Spectroscopy and Keck spectra of SN 1995N obtained in 2022-2023, more than 10,000 days after the supernova (SN) explosion. These spectra are among the latest direct detections of a core-collapse SN, both through emission lines in the optical and thermal continuum from infrared (IR) dust emission. The new IR data show that dust heating from radiation produced by the ejecta interacting with circumstellar matter is still present but greatly reduced from when SN 1995N was observed by the Spitzer Space Telescope and WISE in 2009/2010 and 2018, when the dust mass was estimated to be 0.4 M⊙. New radiative-transfer modeling suggests that the dust mass and grain size may have increased between 2010 and 2023. The new data can alternatively be well fit with a dust mass of 0.4 M⊙ and a much reduced heating source luminosity. The new late-time spectra show unusually strong oxygen forbidden lines, stronger than the Hα emission. This indicates that SN 1995N may have exploded as a stripped-envelope SN, which then interacted with a massive H-rich circumstellar shell, changing it from intrinsically Type Ib/c to Type IIn. The late-time spectrum results when the reverse shock begins to excite the inner H-poor, O-rich ejecta. This change in the spectrum is rarely seen but marks the start of the transition from SN to SN remnant.

UR - https://www.scopus.com/pages/publications/105016798524

UR - https://www.scopus.com/pages/publications/105016798524#tab=citedBy

U2 - 10.3847/1538-4357/adfc72

DO - 10.3847/1538-4357/adfc72

M3 - Article

AN - SCOPUS:105016798524

SN - 0004-637X

VL - 991

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

M1 - 133

ER -

Very Late-time JWST and Keck Spectra of the Oxygen-rich Supernova 1995N

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