Spectroscopic r-Process Abundance Retrieval for Kilonovae. I. The inferred abundance pattern of early emission from GW170817
Vieira, Nicholas and Ruan, John J. and Haggard, Daryl and Ford, Nicole and Drout, Maria R. and Fernández, Rodrigo and Badnell, N. R. (2023) Spectroscopic r-Process Abundance Retrieval for Kilonovae. I. The inferred abundance pattern of early emission from GW170817. The Astrophysical Journal, 944 (2). 123. ISSN 1538-4357 (https://doi.org/10.3847/1538-4357/acae72)
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Abstract
Freshly synthesized r-process elements in kilonovae ejecta imprint absorption features on optical spectra, as observed in the GW170817 binary neutron star merger. These spectral features encode insights into the physical conditions of the r-process and the origins of the ejected material, but associating features with particular elements and inferring the resultant abundance pattern is computationally challenging. We introduce Spectroscopic r-Process Abundance Retrieval for Kilonovae (SPARK), a modular framework to perform Bayesian inference on kilonova spectra with the goals of inferring elemental abundance patterns and identifying absorption features at early times. SPARK inputs an atomic line list and abundance patterns from reaction network calculations into the TARDIS radiative transfer code. It then performs fast Bayesian inference on observed kilonova spectra by training a Gaussian process surrogate for the approximate posteriors of kilonova ejecta parameters, via active learning. We use the spectrum of GW170817 at 1.4 days to perform the first inference on a kilonova spectrum, and recover a complete abundance pattern. Our inference shows that this ejecta was generated by an r-process with either (1) high electron fraction Y e ∼ 0.35 and high entropy s/k B ∼ 25, or, (2) a more moderate Y e ∼ 0.30 and s/k B ∼ 14. These parameters are consistent with a shocked, polar dynamical component, and a viscously driven outflow from a remnant accretion disk, respectively. We also recover previous identifications of strontium absorption at ∼8000 Å, and tentatively identify yttrium and/or zirconium at ≲4500 Å. Our approach will enable computationally tractable inference on the spectra of future kilonovae discovered through multimessenger observations.
ORCID iDs
Vieira, Nicholas, Ruan, John J., Haggard, Daryl, Ford, Nicole, Drout, Maria R., Fernández, Rodrigo and Badnell, N. R. ORCID: https://orcid.org/0000-0001-7418-7996;-
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Item type: Article ID code: 84357 Dates: DateEvent16 February 2023Published21 December 2022Accepted14 September 2022SubmittedSubjects: Science > Physics > Nuclear and particle physics. Atomic energy. Radioactivity Department: Faculty of Science > Physics Depositing user: Pure Administrator Date deposited: 22 Feb 2023 16:41 Last modified: 23 Dec 2024 01:25 URI: https://strathprints.strath.ac.uk/id/eprint/84357