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SN 2023tsz: A helium-interaction driven supernova in a very low-mass galaxy

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SN 2023tsz: A helium-interaction driven supernova in a very low-mass galaxy. / Warwick, B; Lyman, J; Pursiainen, M et al.
In: Monthly Notices of the Royal Astronomical Society, Vol. 536, No. 4, 28.02.2025, p. 3588-3600.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Warwick, B, Lyman, J, Pursiainen, M, Coppejans, DL, Galbany, L, Jones, GT, Killestein, TL, Kumar, A, Oates, SR, Ackley, K, Anderson, JP, Aryan, A, Breton, RP, Chen, TW, Clark, P, Dhillon, VS, Dyer, MJ, Gal-Yam, A, Galloway, DK, Gutiérrez, CP, Gromadzki, M, Inserra, C, Jiménez-Ibarra, F, Kelsey, L, Kotak, R, Kravtsov, T, Kuncarayakti, H, Magee, MR, Matilainen, K, Mattila, S, Müller-Bravo, TE, Nicholl, M, Noysena, K, Nuttall, LK, O’Brien, P, O’Neill, D, Pallé, E, Pessi, T, Petrushevska, T, Pignata, G, Pollacco, D, Ragosta, F, Ramsay, G, Sahu, A, Sahu, DK, Singh, A, Sollerman, J, Stanway, E, Starling, R, Steeghs, D, Teja, RS & Ulaczyk, K 2025, 'SN 2023tsz: A helium-interaction driven supernova in a very low-mass galaxy', Monthly Notices of the Royal Astronomical Society, vol. 536, no. 4, pp. 3588-3600. https://doi.org/10.1093/mnras/stae2784

APA

Warwick, B., Lyman, J., Pursiainen, M., Coppejans, D. L., Galbany, L., Jones, G. T., Killestein, T. L., Kumar, A., Oates, S. R., Ackley, K., Anderson, J. P., Aryan, A., Breton, R. P., Chen, T. W., Clark, P., Dhillon, V. S., Dyer, M. J., Gal-Yam, A., Galloway, D. K., ... Ulaczyk, K. (2025). SN 2023tsz: A helium-interaction driven supernova in a very low-mass galaxy. Monthly Notices of the Royal Astronomical Society, 536(4), 3588-3600. https://doi.org/10.1093/mnras/stae2784

Vancouver

Warwick B, Lyman J, Pursiainen M, Coppejans DL, Galbany L, Jones GT et al. SN 2023tsz: A helium-interaction driven supernova in a very low-mass galaxy. Monthly Notices of the Royal Astronomical Society. 2025 Feb 28;536(4):3588-3600. Epub 2024 Dec 20. doi: 10.1093/mnras/stae2784

Author

Warwick, B ; Lyman, J ; Pursiainen, M et al. / SN 2023tsz : A helium-interaction driven supernova in a very low-mass galaxy. In: Monthly Notices of the Royal Astronomical Society. 2025 ; Vol. 536, No. 4. pp. 3588-3600.

Bibtex

@article{13a802574a0e4c469668f519f5b47d1b,
title = "SN 2023tsz: A helium-interaction driven supernova in a very low-mass galaxy",
abstract = "SN 2023tsz is a Type Ibn supernova (SNe Ibn), an uncommon subtype of stripped-envelope core-collapse SNe, discovered in an extremely low-mass host. SNe Ibn are characterised by narrow helium emission lines in their spectra and are believed to originate from the collapse of massive Wolf-Rayet (WR) stars, though their progenitor systems still remain poorly understood. In terms of energetics and spectrophotometric evolution, SN 2023tsz is largely a typical example of the class, although line profile asymmetries in the nebular phase are seen, which may indicate the presence of dust formation or unshocked circumstellar material. Intriguingly, SN 2023tsz is located in an extraordinarily low-mass host galaxy that is in the 2nd percentile for stripped envelope SN host masses and star formation rates (SFR). The host has a radius of 1.0 kpc, a g-band absolute magnitude of −12.72 ± 0.05, and an estimated metallicity of log (Z*/Z⊙) ≈−1.6. The SFR and metallicity of the host galaxy raise questions about the progenitor of SN 2023tsz. The low SFR suggests that a star with sufficient mass to evolve into a WR would be uncommon in this galaxy. Further, the very low-metallicity is a challenge for single stellar evolution to enable H and He stripping of the progenitor and produce a SN Ibn explosion. The host galaxy of SN 2023tsz adds another piece to the ongoing puzzle of SNe Ibn progenitors, and demonstrates that they can occur in hosts too faint to be observed in contemporary sky surveys at a more typical SN Ibn redshift.",
author = "B Warwick and J Lyman and M Pursiainen and Coppejans, {D L} and L Galbany and Jones, {G T} and Killestein, {T L} and A Kumar and Oates, {S R} and K Ackley and Anderson, {J P} and A Aryan and Breton, {R P} and Chen, {T W} and P Clark and Dhillon, {V S} and Dyer, {M J} and A Gal-Yam and Galloway, {D K} and Guti{\'e}rrez, {C P} and M Gromadzki and C Inserra and F Jim{\'e}nez-Ibarra and L Kelsey and R Kotak and T Kravtsov and H Kuncarayakti and Magee, {M R} and K Matilainen and S Mattila and M{\"u}ller-Bravo, {T E} and M Nicholl and K Noysena and Nuttall, {L K} and P O{\textquoteright}Brien and D O{\textquoteright}Neill and E Pall{\'e} and T Pessi and T Petrushevska and G Pignata and D Pollacco and F Ragosta and G Ramsay and A Sahu and Sahu, {D K} and A Singh and J Sollerman and E Stanway and R Starling and D Steeghs and Teja, {R S} and K Ulaczyk",
year = "2025",
month = feb,
day = "28",
doi = "10.1093/mnras/stae2784",
language = "English",
volume = "536",
pages = "3588--3600",
journal = "Monthly Notices of the Royal Astronomical Society",
issn = "0035-8711",
publisher = "OXFORD UNIV PRESS",
number = "4",

}

RIS

TY - JOUR

T1 - SN 2023tsz

T2 - A helium-interaction driven supernova in a very low-mass galaxy

AU - Warwick, B

AU - Lyman, J

AU - Pursiainen, M

AU - Coppejans, D L

AU - Galbany, L

AU - Jones, G T

AU - Killestein, T L

AU - Kumar, A

AU - Oates, S R

AU - Ackley, K

AU - Anderson, J P

AU - Aryan, A

AU - Breton, R P

AU - Chen, T W

AU - Clark, P

AU - Dhillon, V S

AU - Dyer, M J

AU - Gal-Yam, A

AU - Galloway, D K

AU - Gutiérrez, C P

AU - Gromadzki, M

AU - Inserra, C

AU - Jiménez-Ibarra, F

AU - Kelsey, L

AU - Kotak, R

AU - Kravtsov, T

AU - Kuncarayakti, H

AU - Magee, M R

AU - Matilainen, K

AU - Mattila, S

AU - Müller-Bravo, T E

AU - Nicholl, M

AU - Noysena, K

AU - Nuttall, L K

AU - O’Brien, P

AU - O’Neill, D

AU - Pallé, E

AU - Pessi, T

AU - Petrushevska, T

AU - Pignata, G

AU - Pollacco, D

AU - Ragosta, F

AU - Ramsay, G

AU - Sahu, A

AU - Sahu, D K

AU - Singh, A

AU - Sollerman, J

AU - Stanway, E

AU - Starling, R

AU - Steeghs, D

AU - Teja, R S

AU - Ulaczyk, K

PY - 2025/2/28

Y1 - 2025/2/28

N2 - SN 2023tsz is a Type Ibn supernova (SNe Ibn), an uncommon subtype of stripped-envelope core-collapse SNe, discovered in an extremely low-mass host. SNe Ibn are characterised by narrow helium emission lines in their spectra and are believed to originate from the collapse of massive Wolf-Rayet (WR) stars, though their progenitor systems still remain poorly understood. In terms of energetics and spectrophotometric evolution, SN 2023tsz is largely a typical example of the class, although line profile asymmetries in the nebular phase are seen, which may indicate the presence of dust formation or unshocked circumstellar material. Intriguingly, SN 2023tsz is located in an extraordinarily low-mass host galaxy that is in the 2nd percentile for stripped envelope SN host masses and star formation rates (SFR). The host has a radius of 1.0 kpc, a g-band absolute magnitude of −12.72 ± 0.05, and an estimated metallicity of log (Z*/Z⊙) ≈−1.6. The SFR and metallicity of the host galaxy raise questions about the progenitor of SN 2023tsz. The low SFR suggests that a star with sufficient mass to evolve into a WR would be uncommon in this galaxy. Further, the very low-metallicity is a challenge for single stellar evolution to enable H and He stripping of the progenitor and produce a SN Ibn explosion. The host galaxy of SN 2023tsz adds another piece to the ongoing puzzle of SNe Ibn progenitors, and demonstrates that they can occur in hosts too faint to be observed in contemporary sky surveys at a more typical SN Ibn redshift.

AB - SN 2023tsz is a Type Ibn supernova (SNe Ibn), an uncommon subtype of stripped-envelope core-collapse SNe, discovered in an extremely low-mass host. SNe Ibn are characterised by narrow helium emission lines in their spectra and are believed to originate from the collapse of massive Wolf-Rayet (WR) stars, though their progenitor systems still remain poorly understood. In terms of energetics and spectrophotometric evolution, SN 2023tsz is largely a typical example of the class, although line profile asymmetries in the nebular phase are seen, which may indicate the presence of dust formation or unshocked circumstellar material. Intriguingly, SN 2023tsz is located in an extraordinarily low-mass host galaxy that is in the 2nd percentile for stripped envelope SN host masses and star formation rates (SFR). The host has a radius of 1.0 kpc, a g-band absolute magnitude of −12.72 ± 0.05, and an estimated metallicity of log (Z*/Z⊙) ≈−1.6. The SFR and metallicity of the host galaxy raise questions about the progenitor of SN 2023tsz. The low SFR suggests that a star with sufficient mass to evolve into a WR would be uncommon in this galaxy. Further, the very low-metallicity is a challenge for single stellar evolution to enable H and He stripping of the progenitor and produce a SN Ibn explosion. The host galaxy of SN 2023tsz adds another piece to the ongoing puzzle of SNe Ibn progenitors, and demonstrates that they can occur in hosts too faint to be observed in contemporary sky surveys at a more typical SN Ibn redshift.

U2 - 10.1093/mnras/stae2784

DO - 10.1093/mnras/stae2784

M3 - Journal article

VL - 536

SP - 3588

EP - 3600

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

SN - 0035-8711

IS - 4

ER -