SN 2019tsf: Evidence for Extended Hydrogen-poor CSM in the Three-peaked Light Curve of Stripped Envelope of a Type Ib Supernova

Yossef Zenati; Qinan Wang; Alexey Bobrick; Lindsay DeMarchi; Hila Glanz; Mor Rozner; Jacob E. Jencson; Armin Rest; Brian D. Metzger; Raffaella Margutti; Sebastian Gomez; Nathan Smith; Silvia Toonen; Joe S. Bright; Colin Norman; Ryan J. Foley; Alexander Gagliano; Julian H. Krolik; Stephen J. Smartt; Ashley V. Villar; Gautham Narayan; Ori Fox; Katie Auchettl; Daniel Brethauer; Alejandro Clocchiatti; Sophie V. Coelln; Deanne L. Coppejans; Georgios Dimitriadis; Andris Dorozsmai; Maria Drout; Wynn Jacobson-Galan; Bore Gao; Ryan Ridden-Harper; Charles Donald Kilpatrick; Tanmoy Laskar; David Matthews; Sofia Rest; Ken W. Smith; Candice Mc Kenzie Stauffer; Michael C. Stroh; Louis Gregory Strolger; Giacomo Terreran; Justin D.R. Pierel; Anthony L. Piro

doi:10.3847/1538-4357/adf6b1

SN 2019tsf: Evidence for Extended Hydrogen-poor CSM in the Three-peaked Light Curve of Stripped Envelope of a Type Ib Supernova

Yossef Zenati
, Qinan Wang
, Alexey Bobrick
, Lindsay DeMarchi
, Hila Glanz
, Mor Rozner
, Jacob E. Jencson
, Armin Rest
, Brian D. Metzger
, Raffaella Margutti
, Sebastian Gomez
, Nathan Smith
, Silvia Toonen
, Joe S. Bright
, Colin Norman
, Ryan J. Foley
, Alexander Gagliano
, Julian H. Krolik
, Stephen J. Smartt
, Ashley V. Villar

Gautham Narayan, Ori Fox, Katie Auchettl, Daniel Brethauer, Alejandro Clocchiatti, Sophie V. Coelln, Deanne L. Coppejans, Georgios Dimitriadis, Andris Dorozsmai, Maria Drout, Wynn Jacobson-Galan, Bore Gao, Ryan Ridden-Harper, Charles Donald Kilpatrick, Tanmoy Laskar, David Matthews, Sofia Rest, Ken W. Smith, Candice Mc Kenzie Stauffer, Michael C. Stroh, Louis Gregory Strolger, Giacomo Terreran, Justin D.R. Pierel, Anthony L. Piro

Astronomy

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

Abstract

We present multiband ATLAS and ZTF photometry for SN 2019tsf, a Type Ib stripped-envelope supernova (SESN). The slow spectral evolution could be associated with an uncommon explosion mechanism specific to this SN. Possible explanations include fallback accretion onto a compact remnant or a long-lived central engine, both of which could provide extended energy injection responsible for the late-time rebrightening and unusual spectral features. The rebrightening observations represent the latest photometric measurements of a multipeaked Type Ib SN. As late-time photometry and spectroscopy suggest no hydrogen, the potential circumstellar material (CSM) must be H-poor. The absence of a nebular phase and the lack of narrow emission lines in the late-time spectra (>142 days) of the SNe suggest that any CSM interaction is likely asymmetric and enveloped by the SN ejecta. However, an extended CSM structure is evident through a follow-up radio campaign with the Karl G. Jansky Very Large Array (VLA), indicating a source of bright optically thick radio emission at late times, which is highly unusual among H-poor SESNe. We attribute this phenomenology to an interaction of the supernova ejecta with asymmetric CSM, potentially disk-like, and we present several models that may explain the origin of this rare Type Ib supernova. We propose a warped disk model in which a tertiary companion—commonly present around massive stars—perturbs the progenitor’s CSM, producing density enhancements that may explain the observed multipeaked SN 2019tsf light curve. This SN 2019tsf is a unique SN Type Ib among the recently discovered class of SNe that undergo mass transfer at the moment of explosion.

Original language	English (US)
Article number	9
Journal	Astrophysical Journal
Volume	992
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/adf6b1
State	Published - Oct 10 2025

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/1538-4357/adf6b1

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Zenati, Y., Wang, Q., Bobrick, A., DeMarchi, L., Glanz, H., Rozner, M., Jencson, J. E., Rest, A., Metzger, B. D., Margutti, R., Gomez, S., Smith, N., Toonen, S., Bright, J. S., Norman, C., Foley, R. J., Gagliano, A., Krolik, J. H., Smartt, S. J., ... Piro, A. L. (2025). SN 2019tsf: Evidence for Extended Hydrogen-poor CSM in the Three-peaked Light Curve of Stripped Envelope of a Type Ib Supernova. Astrophysical Journal, 992(1), Article 9. https://doi.org/10.3847/1538-4357/adf6b1

Zenati, Y, Wang, Q, Bobrick, A, DeMarchi, L, Glanz, H, Rozner, M, Jencson, JE, Rest, A, Metzger, BD, Margutti, R, Gomez, S, Smith, N, Toonen, S, Bright, JS, Norman, C, Foley, RJ, Gagliano, A, Krolik, JH, Smartt, SJ, Villar, AV, Narayan, G, Fox, O, Auchettl, K, Brethauer, D, Clocchiatti, A, Coelln, SV, Coppejans, DL, Dimitriadis, G, Dorozsmai, A, Drout, M, Jacobson-Galan, W, Gao, B, Ridden-Harper, R, Kilpatrick, CD, Laskar, T, Matthews, D, Rest, S, Smith, KW, Stauffer, CMK, Stroh, MC, Strolger, LG, Terreran, G, Pierel, JDR & Piro, AL 2025, 'SN 2019tsf: Evidence for Extended Hydrogen-poor CSM in the Three-peaked Light Curve of Stripped Envelope of a Type Ib Supernova', Astrophysical Journal, vol. 992, no. 1, 9. https://doi.org/10.3847/1538-4357/adf6b1

@article{6817b26131974d13a03451289f53b74f,

title = "SN 2019tsf: Evidence for Extended Hydrogen-poor CSM in the Three-peaked Light Curve of Stripped Envelope of a Type Ib Supernova",

abstract = "We present multiband ATLAS and ZTF photometry for SN 2019tsf, a Type Ib stripped-envelope supernova (SESN). The slow spectral evolution could be associated with an uncommon explosion mechanism specific to this SN. Possible explanations include fallback accretion onto a compact remnant or a long-lived central engine, both of which could provide extended energy injection responsible for the late-time rebrightening and unusual spectral features. The rebrightening observations represent the latest photometric measurements of a multipeaked Type Ib SN. As late-time photometry and spectroscopy suggest no hydrogen, the potential circumstellar material (CSM) must be H-poor. The absence of a nebular phase and the lack of narrow emission lines in the late-time spectra (>142 days) of the SNe suggest that any CSM interaction is likely asymmetric and enveloped by the SN ejecta. However, an extended CSM structure is evident through a follow-up radio campaign with the Karl G. Jansky Very Large Array (VLA), indicating a source of bright optically thick radio emission at late times, which is highly unusual among H-poor SESNe. We attribute this phenomenology to an interaction of the supernova ejecta with asymmetric CSM, potentially disk-like, and we present several models that may explain the origin of this rare Type Ib supernova. We propose a warped disk model in which a tertiary companion—commonly present around massive stars—perturbs the progenitor{\textquoteright}s CSM, producing density enhancements that may explain the observed multipeaked SN 2019tsf light curve. This SN 2019tsf is a unique SN Type Ib among the recently discovered class of SNe that undergo mass transfer at the moment of explosion.",

author = "Yossef Zenati and Qinan Wang and Alexey Bobrick and Lindsay DeMarchi and Hila Glanz and Mor Rozner and Jencson, \{Jacob E.\} and Armin Rest and Metzger, \{Brian D.\} and Raffaella Margutti and Sebastian Gomez and Nathan Smith and Silvia Toonen and Bright, \{Joe S.\} and Colin Norman and Foley, \{Ryan J.\} and Alexander Gagliano and Krolik, \{Julian H.\} and Smartt, \{Stephen J.\} and Villar, \{Ashley V.\} and Gautham Narayan and Ori Fox and Katie Auchettl and Daniel Brethauer and Alejandro Clocchiatti and Coelln, \{Sophie V.\} and Coppejans, \{Deanne L.\} and Georgios Dimitriadis and Andris Dorozsmai and Maria Drout and Wynn Jacobson-Galan and Bore Gao and Ryan Ridden-Harper and Kilpatrick, \{Charles Donald\} and Tanmoy Laskar and David Matthews and Sofia Rest and Smith, \{Ken W.\} and Stauffer, \{Candice Mc Kenzie\} and Stroh, \{Michael C.\} and Strolger, \{Louis Gregory\} and Giacomo Terreran and Pierel, \{Justin D.R.\} and Piro, \{Anthony L.\}",

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

year = "2025",

month = oct,

day = "10",

doi = "10.3847/1538-4357/adf6b1",

language = "English (US)",

volume = "992",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "1",

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TY - JOUR

T1 - SN 2019tsf

T2 - Evidence for Extended Hydrogen-poor CSM in the Three-peaked Light Curve of Stripped Envelope of a Type Ib Supernova

AU - Zenati, Yossef

AU - Wang, Qinan

AU - Bobrick, Alexey

AU - DeMarchi, Lindsay

AU - Glanz, Hila

AU - Rozner, Mor

AU - Jencson, Jacob E.

AU - Rest, Armin

AU - Metzger, Brian D.

AU - Margutti, Raffaella

AU - Gomez, Sebastian

AU - Smith, Nathan

AU - Toonen, Silvia

AU - Bright, Joe S.

AU - Norman, Colin

AU - Foley, Ryan J.

AU - Gagliano, Alexander

AU - Krolik, Julian H.

AU - Smartt, Stephen J.

AU - Villar, Ashley V.

AU - Narayan, Gautham

AU - Fox, Ori

AU - Auchettl, Katie

AU - Brethauer, Daniel

AU - Clocchiatti, Alejandro

AU - Coelln, Sophie V.

AU - Coppejans, Deanne L.

AU - Dimitriadis, Georgios

AU - Dorozsmai, Andris

AU - Drout, Maria

AU - Jacobson-Galan, Wynn

AU - Gao, Bore

AU - Ridden-Harper, Ryan

AU - Kilpatrick, Charles Donald

AU - Laskar, Tanmoy

AU - Matthews, David

AU - Rest, Sofia

AU - Smith, Ken W.

AU - Stauffer, Candice Mc Kenzie

AU - Stroh, Michael C.

AU - Strolger, Louis Gregory

AU - Terreran, Giacomo

AU - Pierel, Justin D.R.

AU - Piro, Anthony L.

PY - 2025/10/10

Y1 - 2025/10/10

N2 - We present multiband ATLAS and ZTF photometry for SN 2019tsf, a Type Ib stripped-envelope supernova (SESN). The slow spectral evolution could be associated with an uncommon explosion mechanism specific to this SN. Possible explanations include fallback accretion onto a compact remnant or a long-lived central engine, both of which could provide extended energy injection responsible for the late-time rebrightening and unusual spectral features. The rebrightening observations represent the latest photometric measurements of a multipeaked Type Ib SN. As late-time photometry and spectroscopy suggest no hydrogen, the potential circumstellar material (CSM) must be H-poor. The absence of a nebular phase and the lack of narrow emission lines in the late-time spectra (>142 days) of the SNe suggest that any CSM interaction is likely asymmetric and enveloped by the SN ejecta. However, an extended CSM structure is evident through a follow-up radio campaign with the Karl G. Jansky Very Large Array (VLA), indicating a source of bright optically thick radio emission at late times, which is highly unusual among H-poor SESNe. We attribute this phenomenology to an interaction of the supernova ejecta with asymmetric CSM, potentially disk-like, and we present several models that may explain the origin of this rare Type Ib supernova. We propose a warped disk model in which a tertiary companion—commonly present around massive stars—perturbs the progenitor’s CSM, producing density enhancements that may explain the observed multipeaked SN 2019tsf light curve. This SN 2019tsf is a unique SN Type Ib among the recently discovered class of SNe that undergo mass transfer at the moment of explosion.

AB - We present multiband ATLAS and ZTF photometry for SN 2019tsf, a Type Ib stripped-envelope supernova (SESN). The slow spectral evolution could be associated with an uncommon explosion mechanism specific to this SN. Possible explanations include fallback accretion onto a compact remnant or a long-lived central engine, both of which could provide extended energy injection responsible for the late-time rebrightening and unusual spectral features. The rebrightening observations represent the latest photometric measurements of a multipeaked Type Ib SN. As late-time photometry and spectroscopy suggest no hydrogen, the potential circumstellar material (CSM) must be H-poor. The absence of a nebular phase and the lack of narrow emission lines in the late-time spectra (>142 days) of the SNe suggest that any CSM interaction is likely asymmetric and enveloped by the SN ejecta. However, an extended CSM structure is evident through a follow-up radio campaign with the Karl G. Jansky Very Large Array (VLA), indicating a source of bright optically thick radio emission at late times, which is highly unusual among H-poor SESNe. We attribute this phenomenology to an interaction of the supernova ejecta with asymmetric CSM, potentially disk-like, and we present several models that may explain the origin of this rare Type Ib supernova. We propose a warped disk model in which a tertiary companion—commonly present around massive stars—perturbs the progenitor’s CSM, producing density enhancements that may explain the observed multipeaked SN 2019tsf light curve. This SN 2019tsf is a unique SN Type Ib among the recently discovered class of SNe that undergo mass transfer at the moment of explosion.

UR - https://www.scopus.com/pages/publications/105017781225

UR - https://www.scopus.com/pages/publications/105017781225#tab=citedBy

U2 - 10.3847/1538-4357/adf6b1

DO - 10.3847/1538-4357/adf6b1

M3 - Article

AN - SCOPUS:105017781225

SN - 0004-637X

VL - 992

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 9

ER -

SN 2019tsf: Evidence for Extended Hydrogen-poor CSM in the Three-peaked Light Curve of Stripped Envelope of a Type Ib Supernova

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