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DES14X3taz: A Type I Superluminous Supernova Showing a Luminous, Rapidly Cooling Initial Pre-peak Bump

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DES14X3taz: A Type I Superluminous Supernova Showing a Luminous, Rapidly Cooling Initial Pre-peak Bump. / Dark Energy Survey Collaboration.
In: Astrophysical Journal Letters, Vol. 818, No. 1, 03.02.2016.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Dark Energy Survey Collaboration 2016, 'DES14X3taz: A Type I Superluminous Supernova Showing a Luminous, Rapidly Cooling Initial Pre-peak Bump', Astrophysical Journal Letters, vol. 818, no. 1. https://doi.org/10.3847/2041-8205/818/1/L8

APA

Dark Energy Survey Collaboration (2016). DES14X3taz: A Type I Superluminous Supernova Showing a Luminous, Rapidly Cooling Initial Pre-peak Bump. Astrophysical Journal Letters, 818(1). https://doi.org/10.3847/2041-8205/818/1/L8

Vancouver

Dark Energy Survey Collaboration. DES14X3taz: A Type I Superluminous Supernova Showing a Luminous, Rapidly Cooling Initial Pre-peak Bump. Astrophysical Journal Letters. 2016 Feb 3;818(1). doi: 10.3847/2041-8205/818/1/L8

Author

Dark Energy Survey Collaboration. / DES14X3taz: A Type I Superluminous Supernova Showing a Luminous, Rapidly Cooling Initial Pre-peak Bump. In: Astrophysical Journal Letters. 2016 ; Vol. 818, No. 1.

Bibtex

@article{3259619255b34c87bcd207aa9efa7022,
title = "DES14X3taz: A Type I Superluminous Supernova Showing a Luminous, Rapidly Cooling Initial Pre-peak Bump",
abstract = "We present DES14X3taz, a new hydrogen-poor superluminous supernova (SLSN-I) discovered by the Dark Energy Survey (DES) supernova program, with additional photometric data provided by the Survey Using DECam for Superluminous Supernovae. Spectra obtained using Optical System for Imaging and low-Intermediate-Resolution Integrated Spectroscopy on the Gran Telescopio CANARIAS show DES14X3taz is an SLSN-I at z = 0.608. Multi-color photometry reveals a double-peaked light curve: a blue and relatively bright initial peak that fades rapidly prior to the slower rise of the main light curve. Our multi-color photometry allows us, for the first time, to show that the initial peak cools from 22,000 to 8000 K over 15 rest-frame days, and is faster and brighter than any published core-collapse supernova, reaching 30% of the bolometric luminosity of the main peak. No physical 56Ni-powered model can fit this initial peak. We show that a shock-cooling model followed by a magnetar driving the second phase of the light curve can adequately explain the entire light curve of DES14X3taz. Models involving the shock-cooling of extended circumstellar material at a distance of ≃400 {\text{}}{R}☉ are preferred over the cooling of shock-heated surface layers of a stellar envelope. We compare DES14X3taz to the few double-peaked SLSN-I events in the literature. Although the rise times and characteristics of these initial peaks differ, there exists the tantalizing possibility that they can be explained by one physical interpretation.",
author = "{Dark Energy Survey Collaboration} and M. Smith and M. Sullivan and D'Andrea, {C. B.} and Castander, {F. J.} and R. Casas and S. Prajs and A. Papadopoulos and Nichol, {R. C.} and Karpenka, {N. V.} and Bernard, {S. R.} and P. Brown and R. Cartier and J. Cooke and C. Curtin and Davis, {T. M.} and Finley, {D. A.} and Foley, {R. J.} and A. Gal-Yam and Goldstein, {D. A.} and S. Gonz{\'a}lez-Gait{\'a}n and Gupta, {R. R.} and Howell, {D. A.} and C. Inserra and R. Kessler and C. Lidman and J. Marriner and P. Nugent and Pritchard, {T. A.} and M. Sako and S. Smartt and Smith, {R. C.} and H. Spinka and Thomas, {R. C.} and Wolf, {R. C.} and A. Zenteno and Abbott, {T. M. C.} and A. Benoit-L{\'e}vy and E. Bertin and D. Brooks and E. Buckley-Geer and {Carnero Rosell}, A. and {Carrasco Kind}, M. and J. Carretero and M. Crocce and Cunha, {C. E.} and {da Costa}, {L. N.} and S. Desai and Diehl, {H. T.} and P. Doel and J. Estrada",
year = "2016",
month = feb,
day = "3",
doi = "10.3847/2041-8205/818/1/L8",
language = "Undefined/Unknown",
volume = "818",
journal = "Astrophysical Journal Letters",
issn = "2041-8205",
publisher = "American Astronomical Society",
number = "1",

}

RIS

TY - JOUR

T1 - DES14X3taz: A Type I Superluminous Supernova Showing a Luminous, Rapidly Cooling Initial Pre-peak Bump

AU - Dark Energy Survey Collaboration

AU - Smith, M.

AU - Sullivan, M.

AU - D'Andrea, C. B.

AU - Castander, F. J.

AU - Casas, R.

AU - Prajs, S.

AU - Papadopoulos, A.

AU - Nichol, R. C.

AU - Karpenka, N. V.

AU - Bernard, S. R.

AU - Brown, P.

AU - Cartier, R.

AU - Cooke, J.

AU - Curtin, C.

AU - Davis, T. M.

AU - Finley, D. A.

AU - Foley, R. J.

AU - Gal-Yam, A.

AU - Goldstein, D. A.

AU - González-Gaitán, S.

AU - Gupta, R. R.

AU - Howell, D. A.

AU - Inserra, C.

AU - Kessler, R.

AU - Lidman, C.

AU - Marriner, J.

AU - Nugent, P.

AU - Pritchard, T. A.

AU - Sako, M.

AU - Smartt, S.

AU - Smith, R. C.

AU - Spinka, H.

AU - Thomas, R. C.

AU - Wolf, R. C.

AU - Zenteno, A.

AU - Abbott, T. M. C.

AU - Benoit-Lévy, A.

AU - Bertin, E.

AU - Brooks, D.

AU - Buckley-Geer, E.

AU - Carnero Rosell, A.

AU - Carrasco Kind, M.

AU - Carretero, J.

AU - Crocce, M.

AU - Cunha, C. E.

AU - da Costa, L. N.

AU - Desai, S.

AU - Diehl, H. T.

AU - Doel, P.

AU - Estrada, J.

PY - 2016/2/3

Y1 - 2016/2/3

N2 - We present DES14X3taz, a new hydrogen-poor superluminous supernova (SLSN-I) discovered by the Dark Energy Survey (DES) supernova program, with additional photometric data provided by the Survey Using DECam for Superluminous Supernovae. Spectra obtained using Optical System for Imaging and low-Intermediate-Resolution Integrated Spectroscopy on the Gran Telescopio CANARIAS show DES14X3taz is an SLSN-I at z = 0.608. Multi-color photometry reveals a double-peaked light curve: a blue and relatively bright initial peak that fades rapidly prior to the slower rise of the main light curve. Our multi-color photometry allows us, for the first time, to show that the initial peak cools from 22,000 to 8000 K over 15 rest-frame days, and is faster and brighter than any published core-collapse supernova, reaching 30% of the bolometric luminosity of the main peak. No physical 56Ni-powered model can fit this initial peak. We show that a shock-cooling model followed by a magnetar driving the second phase of the light curve can adequately explain the entire light curve of DES14X3taz. Models involving the shock-cooling of extended circumstellar material at a distance of ≃400 {\text{}}{R}☉ are preferred over the cooling of shock-heated surface layers of a stellar envelope. We compare DES14X3taz to the few double-peaked SLSN-I events in the literature. Although the rise times and characteristics of these initial peaks differ, there exists the tantalizing possibility that they can be explained by one physical interpretation.

AB - We present DES14X3taz, a new hydrogen-poor superluminous supernova (SLSN-I) discovered by the Dark Energy Survey (DES) supernova program, with additional photometric data provided by the Survey Using DECam for Superluminous Supernovae. Spectra obtained using Optical System for Imaging and low-Intermediate-Resolution Integrated Spectroscopy on the Gran Telescopio CANARIAS show DES14X3taz is an SLSN-I at z = 0.608. Multi-color photometry reveals a double-peaked light curve: a blue and relatively bright initial peak that fades rapidly prior to the slower rise of the main light curve. Our multi-color photometry allows us, for the first time, to show that the initial peak cools from 22,000 to 8000 K over 15 rest-frame days, and is faster and brighter than any published core-collapse supernova, reaching 30% of the bolometric luminosity of the main peak. No physical 56Ni-powered model can fit this initial peak. We show that a shock-cooling model followed by a magnetar driving the second phase of the light curve can adequately explain the entire light curve of DES14X3taz. Models involving the shock-cooling of extended circumstellar material at a distance of ≃400 {\text{}}{R}☉ are preferred over the cooling of shock-heated surface layers of a stellar envelope. We compare DES14X3taz to the few double-peaked SLSN-I events in the literature. Although the rise times and characteristics of these initial peaks differ, there exists the tantalizing possibility that they can be explained by one physical interpretation.

UR - https://ui.adsabs.harvard.edu/#abs/2016ApJ...818L...8S

U2 - 10.3847/2041-8205/818/1/L8

DO - 10.3847/2041-8205/818/1/L8

M3 - Journal article

VL - 818

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

SN - 2041-8205

IS - 1

ER -