Very late photometry of SN 2011fe

W. E. Kerzendorf; S. Taubenberger; I. R. Seitenzahl; A. J. Ruiter

doi:10.1088/2041-8205/796/2/L26

Very late photometry of SN 2011fe

W. E. Kerzendorf^*, S. Taubenberger, I. R. Seitenzahl, A. J. Ruiter

^*Corresponding author for this work

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

31 Citations (Scopus)

Abstract

The Type Ia supernova SN 2011fe is one of the closest supernovae of the past decades. Due to its proximity and low dust extinction, this object provides a very rare opportunity to study the extremely late time evolution (>900 days) of thermonuclear supernovae. In this Letter, we present our photometric data of SN 2011fe taken at an unprecedented late epoch of ≈930 days with GMOS-N mounted on the Gemini North telescope (g = 23.43 ± 0.28, r = 24.14 ± 0.14, i = 23.91 ± 0.18, and z = 23.90 ± 0.17) to study the energy production and retention in the ejecta of SN 2011fe. Together with previous measurements by other groups, our result suggests that the optical supernova light curve can still be explained by the full thermalization of the decay positrons of ⁵⁶Co. This is in spite of theoretical predicted effects (e.g., infrared catastrophe, positron escape, and dust) that advocate a substantial energy redistribution and/or loss via various processes that result in a more rapid dimming at these very late epochs.

Original language	English
Article number	L26
Journal	Astrophysical Journal Letters
Volume	796
Issue number	2
DOIs	https://doi.org/10.1088/2041-8205/796/2/L26
Publication status	Published - 1 Dec 2014

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title = "Very late photometry of SN 2011fe",

abstract = "The Type Ia supernova SN 2011fe is one of the closest supernovae of the past decades. Due to its proximity and low dust extinction, this object provides a very rare opportunity to study the extremely late time evolution (>900 days) of thermonuclear supernovae. In this Letter, we present our photometric data of SN 2011fe taken at an unprecedented late epoch of ≈930 days with GMOS-N mounted on the Gemini North telescope (g = 23.43 ± 0.28, r = 24.14 ± 0.14, i = 23.91 ± 0.18, and z = 23.90 ± 0.17) to study the energy production and retention in the ejecta of SN 2011fe. Together with previous measurements by other groups, our result suggests that the optical supernova light curve can still be explained by the full thermalization of the decay positrons of 56Co. This is in spite of theoretical predicted effects (e.g., infrared catastrophe, positron escape, and dust) that advocate a substantial energy redistribution and/or loss via various processes that result in a more rapid dimming at these very late epochs.",

keywords = "Nuclear reactions, nucleosynthesis, abundances, Supernovae: Individual (SN 2011fe), Techniques: Photometric",

author = "Kerzendorf, {W. E.} and S. Taubenberger and Seitenzahl, {I. R.} and Ruiter, {A. J.}",

year = "2014",

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doi = "10.1088/2041-8205/796/2/L26",

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AU - Kerzendorf, W. E.

AU - Taubenberger, S.

AU - Seitenzahl, I. R.

AU - Ruiter, A. J.

PY - 2014/12/1

Y1 - 2014/12/1

N2 - The Type Ia supernova SN 2011fe is one of the closest supernovae of the past decades. Due to its proximity and low dust extinction, this object provides a very rare opportunity to study the extremely late time evolution (>900 days) of thermonuclear supernovae. In this Letter, we present our photometric data of SN 2011fe taken at an unprecedented late epoch of ≈930 days with GMOS-N mounted on the Gemini North telescope (g = 23.43 ± 0.28, r = 24.14 ± 0.14, i = 23.91 ± 0.18, and z = 23.90 ± 0.17) to study the energy production and retention in the ejecta of SN 2011fe. Together with previous measurements by other groups, our result suggests that the optical supernova light curve can still be explained by the full thermalization of the decay positrons of 56Co. This is in spite of theoretical predicted effects (e.g., infrared catastrophe, positron escape, and dust) that advocate a substantial energy redistribution and/or loss via various processes that result in a more rapid dimming at these very late epochs.

AB - The Type Ia supernova SN 2011fe is one of the closest supernovae of the past decades. Due to its proximity and low dust extinction, this object provides a very rare opportunity to study the extremely late time evolution (>900 days) of thermonuclear supernovae. In this Letter, we present our photometric data of SN 2011fe taken at an unprecedented late epoch of ≈930 days with GMOS-N mounted on the Gemini North telescope (g = 23.43 ± 0.28, r = 24.14 ± 0.14, i = 23.91 ± 0.18, and z = 23.90 ± 0.17) to study the energy production and retention in the ejecta of SN 2011fe. Together with previous measurements by other groups, our result suggests that the optical supernova light curve can still be explained by the full thermalization of the decay positrons of 56Co. This is in spite of theoretical predicted effects (e.g., infrared catastrophe, positron escape, and dust) that advocate a substantial energy redistribution and/or loss via various processes that result in a more rapid dimming at these very late epochs.

KW - Nuclear reactions, nucleosynthesis, abundances

KW - Supernovae: Individual (SN 2011fe)

KW - Techniques: Photometric

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DO - 10.1088/2041-8205/796/2/L26

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SN - 2041-8205

VL - 796

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

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ER -

Very late photometry of SN 2011fe

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