A Hubble Space Telescope Search for r-Process Nucleosynthesis in Gamma-Ray Burst Supernovae

J. C. Rastinejad; W. Fong; A. J. Levan; N. R. Tanvir; C. D. Kilpatrick; A. S. Fruchter; S. Anand; K. Bhirombhakdi; S. Covino; J. P.U. Fynbo; G. Halevi; D. H. Hartmann; K. E. Heintz; L. Izzo; P. Jakobsson; T. Kangas; G. P. Lamb; D. B. Malesani; A. Melandri; B. D. Metzger; B. Milvang-Jensen; E. Pian; G. Pugliese; A. Rossi; D. M. Siegel; P. Singh; G. Stratta

doi:10.3847/1538-4357/ad409c

A Hubble Space Telescope Search for r-Process Nucleosynthesis in Gamma-Ray Burst Supernovae

J. C. Rastinejad
, W. Fong
, A. J. Levan
, N. R. Tanvir
, C. D. Kilpatrick
, A. S. Fruchter
, S. Anand
, K. Bhirombhakdi
, S. Covino
, J. P.U. Fynbo
, G. Halevi
, D. H. Hartmann
, K. E. Heintz
, L. Izzo
, P. Jakobsson
, T. Kangas
, G. P. Lamb
, D. B. Malesani
, A. Melandri
, B. D. Metzger

B. Milvang-Jensen, E. Pian, G. Pugliese, A. Rossi, D. M. Siegel, P. Singh, G. Stratta

University of Iceland

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

Abstract

The existence of a secondary (in addition to compact object mergers) source of heavy element (r-process) nucleosynthesis, the core-collapse of rapidly rotating and highly magnetized massive stars, has been suggested by both simulations and indirect observational evidence. Here, we probe a predicted signature of r-process enrichment, a late-time (≳40 days post-burst) distinct red color, in observations of gamma-ray burst supernovae (GRB-SNe), which are linked to these massive star progenitors. We present optical to near-IR color measurements of four GRB-SNe at z ≲ 0.4, extending out to >500 days post-burst, obtained with the Hubble Space Telescope and large-aperture ground-based telescopes. Comparison of our observations to models indicates that GRBs 030329, 100316D, and 130427A are consistent with both no enrichment and producing 0.01-0.15 M _⊙ of r-process material if there is a low amount of mixing between the inner r-process ejecta and outer supernova (SN) layers. GRB 190829A is not consistent with any models with r-process enrichment ≥0.01 M _⊙. Taken together the sample of GRB-SNe indicates color diversity at late times. Our derived yields from GRB-SNe may be underestimated due to r-process material hidden in the SN ejecta (potentially due to low mixing fractions) or the limits of current models in measuring r-process mass. We conclude with recommendations for future search strategies to observe and probe the full distribution of r-process produced by GRB-SNe.

Original language	English
Article number	14
Journal	Astrophysical Journal
Volume	968
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/ad409c
Publication status	Published - 1 Jun 2024

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10.3847/1538-4357/ad409c

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Rastinejad, J. C., Fong, W., Levan, A. J., Tanvir, N. R., Kilpatrick, C. D., Fruchter, A. S., Anand, S., Bhirombhakdi, K., Covino, S., Fynbo, J. P. U., Halevi, G., Hartmann, D. H., Heintz, K. E., Izzo, L., Jakobsson, P., Kangas, T., Lamb, G. P., Malesani, D. B., Melandri, A., ... Stratta, G. (2024). A Hubble Space Telescope Search for r-Process Nucleosynthesis in Gamma-Ray Burst Supernovae. Astrophysical Journal, 968(1), Article 14. https://doi.org/10.3847/1538-4357/ad409c

@article{a731ec4bd44a4168be806c46f72bb65e,

title = "A Hubble Space Telescope Search for r-Process Nucleosynthesis in Gamma-Ray Burst Supernovae",

abstract = "The existence of a secondary (in addition to compact object mergers) source of heavy element (r-process) nucleosynthesis, the core-collapse of rapidly rotating and highly magnetized massive stars, has been suggested by both simulations and indirect observational evidence. Here, we probe a predicted signature of r-process enrichment, a late-time (≳40 days post-burst) distinct red color, in observations of gamma-ray burst supernovae (GRB-SNe), which are linked to these massive star progenitors. We present optical to near-IR color measurements of four GRB-SNe at z ≲ 0.4, extending out to >500 days post-burst, obtained with the Hubble Space Telescope and large-aperture ground-based telescopes. Comparison of our observations to models indicates that GRBs 030329, 100316D, and 130427A are consistent with both no enrichment and producing 0.01-0.15 M ⊙ of r-process material if there is a low amount of mixing between the inner r-process ejecta and outer supernova (SN) layers. GRB 190829A is not consistent with any models with r-process enrichment ≥0.01 M ⊙. Taken together the sample of GRB-SNe indicates color diversity at late times. Our derived yields from GRB-SNe may be underestimated due to r-process material hidden in the SN ejecta (potentially due to low mixing fractions) or the limits of current models in measuring r-process mass. We conclude with recommendations for future search strategies to observe and probe the full distribution of r-process produced by GRB-SNe.",

author = "Rastinejad, \{J. C.\} and W. Fong and Levan, \{A. J.\} and Tanvir, \{N. R.\} and Kilpatrick, \{C. D.\} and Fruchter, \{A. S.\} and S. Anand and K. Bhirombhakdi and S. Covino and Fynbo, \{J. P.U.\} and G. Halevi and Hartmann, \{D. H.\} and Heintz, \{K. E.\} and L. Izzo and P. Jakobsson and T. Kangas and Lamb, \{G. P.\} and Malesani, \{D. B.\} and A. Melandri and Metzger, \{B. D.\} and B. Milvang-Jensen and E. Pian and G. Pugliese and A. Rossi and Siegel, \{D. M.\} and P. Singh and G. Stratta",

note = "Publisher Copyright: {\textcopyright} 2024. The Author(s). Published by the American Astronomical Society.",

year = "2024",

month = jun,

day = "1",

doi = "10.3847/1538-4357/ad409c",

language = "English",

volume = "968",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "1",

}

Rastinejad, JC, Fong, W, Levan, AJ, Tanvir, NR, Kilpatrick, CD, Fruchter, AS, Anand, S, Bhirombhakdi, K, Covino, S, Fynbo, JPU, Halevi, G, Hartmann, DH, Heintz, KE, Izzo, L, Jakobsson, P, Kangas, T, Lamb, GP, Malesani, DB, Melandri, A, Metzger, BD, Milvang-Jensen, B, Pian, E, Pugliese, G, Rossi, A, Siegel, DM, Singh, P & Stratta, G 2024, 'A Hubble Space Telescope Search for r-Process Nucleosynthesis in Gamma-Ray Burst Supernovae', Astrophysical Journal, vol. 968, no. 1, 14. https://doi.org/10.3847/1538-4357/ad409c

TY - JOUR

T1 - A Hubble Space Telescope Search for r-Process Nucleosynthesis in Gamma-Ray Burst Supernovae

AU - Rastinejad, J. C.

AU - Fong, W.

AU - Levan, A. J.

AU - Tanvir, N. R.

AU - Kilpatrick, C. D.

AU - Fruchter, A. S.

AU - Anand, S.

AU - Bhirombhakdi, K.

AU - Covino, S.

AU - Fynbo, J. P.U.

AU - Halevi, G.

AU - Hartmann, D. H.

AU - Heintz, K. E.

AU - Izzo, L.

AU - Jakobsson, P.

AU - Kangas, T.

AU - Lamb, G. P.

AU - Malesani, D. B.

AU - Melandri, A.

AU - Metzger, B. D.

AU - Milvang-Jensen, B.

AU - Pian, E.

AU - Pugliese, G.

AU - Rossi, A.

AU - Siegel, D. M.

AU - Singh, P.

AU - Stratta, G.

PY - 2024/6/1

Y1 - 2024/6/1

N2 - The existence of a secondary (in addition to compact object mergers) source of heavy element (r-process) nucleosynthesis, the core-collapse of rapidly rotating and highly magnetized massive stars, has been suggested by both simulations and indirect observational evidence. Here, we probe a predicted signature of r-process enrichment, a late-time (≳40 days post-burst) distinct red color, in observations of gamma-ray burst supernovae (GRB-SNe), which are linked to these massive star progenitors. We present optical to near-IR color measurements of four GRB-SNe at z ≲ 0.4, extending out to >500 days post-burst, obtained with the Hubble Space Telescope and large-aperture ground-based telescopes. Comparison of our observations to models indicates that GRBs 030329, 100316D, and 130427A are consistent with both no enrichment and producing 0.01-0.15 M ⊙ of r-process material if there is a low amount of mixing between the inner r-process ejecta and outer supernova (SN) layers. GRB 190829A is not consistent with any models with r-process enrichment ≥0.01 M ⊙. Taken together the sample of GRB-SNe indicates color diversity at late times. Our derived yields from GRB-SNe may be underestimated due to r-process material hidden in the SN ejecta (potentially due to low mixing fractions) or the limits of current models in measuring r-process mass. We conclude with recommendations for future search strategies to observe and probe the full distribution of r-process produced by GRB-SNe.

AB - The existence of a secondary (in addition to compact object mergers) source of heavy element (r-process) nucleosynthesis, the core-collapse of rapidly rotating and highly magnetized massive stars, has been suggested by both simulations and indirect observational evidence. Here, we probe a predicted signature of r-process enrichment, a late-time (≳40 days post-burst) distinct red color, in observations of gamma-ray burst supernovae (GRB-SNe), which are linked to these massive star progenitors. We present optical to near-IR color measurements of four GRB-SNe at z ≲ 0.4, extending out to >500 days post-burst, obtained with the Hubble Space Telescope and large-aperture ground-based telescopes. Comparison of our observations to models indicates that GRBs 030329, 100316D, and 130427A are consistent with both no enrichment and producing 0.01-0.15 M ⊙ of r-process material if there is a low amount of mixing between the inner r-process ejecta and outer supernova (SN) layers. GRB 190829A is not consistent with any models with r-process enrichment ≥0.01 M ⊙. Taken together the sample of GRB-SNe indicates color diversity at late times. Our derived yields from GRB-SNe may be underestimated due to r-process material hidden in the SN ejecta (potentially due to low mixing fractions) or the limits of current models in measuring r-process mass. We conclude with recommendations for future search strategies to observe and probe the full distribution of r-process produced by GRB-SNe.

UR - https://www.scopus.com/pages/publications/85195792720

U2 - 10.3847/1538-4357/ad409c

DO - 10.3847/1538-4357/ad409c

M3 - Article

SN - 0004-637X

VL - 968

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 14

ER -

A Hubble Space Telescope Search for r-Process Nucleosynthesis in Gamma-Ray Burst Supernovae

Abstract

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