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SN 2021adxl: A luminous nearby interacting supernova in an extremely low-metallicity environment

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SN 2021adxl: A luminous nearby interacting supernova in an extremely low-metallicity environment. / Brennan, S.J.; Schulze, S.; Lunnan, R. et al.
In: Astronomy and Astrophysics, Vol. 690, A259, 31.10.2024.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Brennan, SJ, Schulze, S, Lunnan, R, Sollerman, J, Yan, L, Fransson, C, Irani, I, Melinder, J, Chen, T-W, De, K, Fremling, C, Kim, Y-L, Perley, D, Pessi, PJ, Drake, AJ, Graham, MJ, Laher, RR, Masci, FJ, Purdum, J & Rodriguez, H 2024, 'SN 2021adxl: A luminous nearby interacting supernova in an extremely low-metallicity environment', Astronomy and Astrophysics, vol. 690, A259. https://doi.org/10.1051/0004-6361/202349036

APA

Brennan, S. J., Schulze, S., Lunnan, R., Sollerman, J., Yan, L., Fransson, C., Irani, I., Melinder, J., Chen, T.-W., De, K., Fremling, C., Kim, Y.-L., Perley, D., Pessi, P. J., Drake, A. J., Graham, M. J., Laher, R. R., Masci, F. J., Purdum, J., & Rodriguez, H. (2024). SN 2021adxl: A luminous nearby interacting supernova in an extremely low-metallicity environment. Astronomy and Astrophysics, 690, Article A259. https://doi.org/10.1051/0004-6361/202349036

Vancouver

Brennan SJ, Schulze S, Lunnan R, Sollerman J, Yan L, Fransson C et al. SN 2021adxl: A luminous nearby interacting supernova in an extremely low-metallicity environment. Astronomy and Astrophysics. 2024 Oct 31;690:A259. doi: 10.1051/0004-6361/202349036

Author

Brennan, S.J. ; Schulze, S. ; Lunnan, R. et al. / SN 2021adxl : A luminous nearby interacting supernova in an extremely low-metallicity environment. In: Astronomy and Astrophysics. 2024 ; Vol. 690.

Bibtex

@article{f623f25200f044eeb6756854aee1f095,
title = "SN 2021adxl: A luminous nearby interacting supernova in an extremely low-metallicity environment",
abstract = "SN 2021adxl is a slowly evolving, luminous, Type IIn supernova with asymmetric emission line profiles, similar to the well-studied SN 2010jl. We present extensive optical, near-ultraviolet, and near-infrared photometry and spectroscopy covering ∼1.5 years post discovery. SN 2021adxl occurred in an unusual environment, atop a vigorously star-forming region that is offset from its host galaxy core. The appearance of Lyα and O II, as well as the compact core, would classify the host of SN 2021adxl as a “Blueberry” galaxy, analogous to higher redshift, low-metallicity, star-forming dwarf “Green Pea” galaxies. Using several abundance indicators, we find a metallicity of the explosion environment of only ∼0.1 Z⊙, the lowest reported metallicity for a Type IIn SN environment. SN 2021adxl reaches a peak magnitude of Mr ≈ −20.2 mag and since discovery, SN 2021adxl has faded by only ∼4 magnitudes in the r band with a cumulative radiated energy of ∼1.5 × 1050 erg over 18 months. SN 2021adxl shows strong signs of interaction with a complex circumstellar medium, seen by the detection of X-rays, revealed by the detection of coronal emission lines, and through multi-component hydrogen and helium profiles. In order to further understand this interaction, we model the Hα profile using a Monte Carlo electron scattering code. The blueshifted high-velocity component is consistent with emission from a radially thin spherical shell resulting in the broad emission components due to electron scattering. Using the velocity evolution of this emitting shell, we find that the SN ejecta collide with circumstellar material of at least ∼5 M⊙ assuming a steady-state mass-loss rate of ∼4 − 6 × 10−3 M⊙ yr−1 for the first ∼200 days of evolution. SN 2021adxl was last observed to be slowly declining at ∼0.01 mag d−1, and if this trend continues, SN 2021adxl will remain observable after its current solar conjunction. Continuing the observations of SN 2021adxl may reveal signatures of dust formation or an infrared excess, similar to that seen for SN 2010jl.",
author = "S.J. Brennan and S. Schulze and R. Lunnan and J. Sollerman and L. Yan and C. Fransson and I. Irani and J. Melinder and T.-W. Chen and K. De and C. Fremling and Y.-L. Kim and D. Perley and P.J. Pessi and A.J. Drake and M.J. Graham and R.R. Laher and F.J. Masci and J. Purdum and H. Rodriguez",
year = "2024",
month = oct,
day = "31",
doi = "10.1051/0004-6361/202349036",
language = "English",
volume = "690",
journal = "Astronomy and Astrophysics",
issn = "1432-0746",
publisher = "EDP Sciences",

}

RIS

TY - JOUR

T1 - SN 2021adxl

T2 - A luminous nearby interacting supernova in an extremely low-metallicity environment

AU - Brennan, S.J.

AU - Schulze, S.

AU - Lunnan, R.

AU - Sollerman, J.

AU - Yan, L.

AU - Fransson, C.

AU - Irani, I.

AU - Melinder, J.

AU - Chen, T.-W.

AU - De, K.

AU - Fremling, C.

AU - Kim, Y.-L.

AU - Perley, D.

AU - Pessi, P.J.

AU - Drake, A.J.

AU - Graham, M.J.

AU - Laher, R.R.

AU - Masci, F.J.

AU - Purdum, J.

AU - Rodriguez, H.

PY - 2024/10/31

Y1 - 2024/10/31

N2 - SN 2021adxl is a slowly evolving, luminous, Type IIn supernova with asymmetric emission line profiles, similar to the well-studied SN 2010jl. We present extensive optical, near-ultraviolet, and near-infrared photometry and spectroscopy covering ∼1.5 years post discovery. SN 2021adxl occurred in an unusual environment, atop a vigorously star-forming region that is offset from its host galaxy core. The appearance of Lyα and O II, as well as the compact core, would classify the host of SN 2021adxl as a “Blueberry” galaxy, analogous to higher redshift, low-metallicity, star-forming dwarf “Green Pea” galaxies. Using several abundance indicators, we find a metallicity of the explosion environment of only ∼0.1 Z⊙, the lowest reported metallicity for a Type IIn SN environment. SN 2021adxl reaches a peak magnitude of Mr ≈ −20.2 mag and since discovery, SN 2021adxl has faded by only ∼4 magnitudes in the r band with a cumulative radiated energy of ∼1.5 × 1050 erg over 18 months. SN 2021adxl shows strong signs of interaction with a complex circumstellar medium, seen by the detection of X-rays, revealed by the detection of coronal emission lines, and through multi-component hydrogen and helium profiles. In order to further understand this interaction, we model the Hα profile using a Monte Carlo electron scattering code. The blueshifted high-velocity component is consistent with emission from a radially thin spherical shell resulting in the broad emission components due to electron scattering. Using the velocity evolution of this emitting shell, we find that the SN ejecta collide with circumstellar material of at least ∼5 M⊙ assuming a steady-state mass-loss rate of ∼4 − 6 × 10−3 M⊙ yr−1 for the first ∼200 days of evolution. SN 2021adxl was last observed to be slowly declining at ∼0.01 mag d−1, and if this trend continues, SN 2021adxl will remain observable after its current solar conjunction. Continuing the observations of SN 2021adxl may reveal signatures of dust formation or an infrared excess, similar to that seen for SN 2010jl.

AB - SN 2021adxl is a slowly evolving, luminous, Type IIn supernova with asymmetric emission line profiles, similar to the well-studied SN 2010jl. We present extensive optical, near-ultraviolet, and near-infrared photometry and spectroscopy covering ∼1.5 years post discovery. SN 2021adxl occurred in an unusual environment, atop a vigorously star-forming region that is offset from its host galaxy core. The appearance of Lyα and O II, as well as the compact core, would classify the host of SN 2021adxl as a “Blueberry” galaxy, analogous to higher redshift, low-metallicity, star-forming dwarf “Green Pea” galaxies. Using several abundance indicators, we find a metallicity of the explosion environment of only ∼0.1 Z⊙, the lowest reported metallicity for a Type IIn SN environment. SN 2021adxl reaches a peak magnitude of Mr ≈ −20.2 mag and since discovery, SN 2021adxl has faded by only ∼4 magnitudes in the r band with a cumulative radiated energy of ∼1.5 × 1050 erg over 18 months. SN 2021adxl shows strong signs of interaction with a complex circumstellar medium, seen by the detection of X-rays, revealed by the detection of coronal emission lines, and through multi-component hydrogen and helium profiles. In order to further understand this interaction, we model the Hα profile using a Monte Carlo electron scattering code. The blueshifted high-velocity component is consistent with emission from a radially thin spherical shell resulting in the broad emission components due to electron scattering. Using the velocity evolution of this emitting shell, we find that the SN ejecta collide with circumstellar material of at least ∼5 M⊙ assuming a steady-state mass-loss rate of ∼4 − 6 × 10−3 M⊙ yr−1 for the first ∼200 days of evolution. SN 2021adxl was last observed to be slowly declining at ∼0.01 mag d−1, and if this trend continues, SN 2021adxl will remain observable after its current solar conjunction. Continuing the observations of SN 2021adxl may reveal signatures of dust formation or an infrared excess, similar to that seen for SN 2010jl.

U2 - 10.1051/0004-6361/202349036

DO - 10.1051/0004-6361/202349036

M3 - Journal article

VL - 690

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

SN - 1432-0746

M1 - A259

ER -