Downloads provided by UsageCountsBayesian model selection for GRB 211211A through multiwavelength analyses
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NSF| Extending the Teach of Gravitational-Wave Detectors through Low Latency Data Products, Unmodeled Searches, and Detector Characterization ,
NSF| Track 4: Advanced CI Coordination Ecosystem: Monitoring and Measurement Services ,
NSF| HDR Institute: Accelerated AI Algorithms for Data-Driven Discovery ,
EC| SMArt ,
NSF| ACO: An Open CI Ecosystem to Advance Scientific Discovery (OpenCI) ,
NSF| Track 2: Customized Multi-tier Assistance, Training, and Computational Help (MATCH) for End User ACCESS to CI ,
NSF| PIRE: GROWTH: Global Relay of Observatories Watching Transients Happen ,
EC| AHEAD2020 ,
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NSF| Track 3: COre National Ecosystem for CyberinfrasTructure (CONECT)
Kunert N; Antier S; Nedora, V; Bulla, M; Pang, P T H; Anand, S; Coughlin, M; Tews, I; Barnes, J; Hussenot-Desenonges, T; Healy, B; Jegou du ; Laz, T; Pilloix, M; Kiendrebeogo, W; Dietrich, T;
Bayesian model selection for GRB 211211A through multiwavelength analyses
ABSTRACT Although GRB 211211A is one of the closest gamma-ray bursts (GRBs), its classification is challenging because of its partially inconclusive electromagnetic signatures. In this paper, we investigate four astrophysical scenarios as possible progenitors for GRB 211211A: a binary neutron star merger, a black hole–neutron star merger, a core-collapse supernova, and an r-process enriched core collapse of a rapidly rotating massive star (a collapsar). We perform a large set of Bayesian multiwavelength analyses based on different models describing these scenarios and priors to investigate which astrophysical scenarios and processes might be related to GRB 211211A. Our analysis supports previous studies in which the presence of an additional component, likely related to r-process nucleosynthesis, is required to explain the observed light curves of GRB 211211A, as it cannot be explained solely as a GRB afterglow. Fixing the distance to about $350~\rm Mpc$, namely the distance of the possible host galaxy SDSS J140910.47+275320.8, we find a statistical preference for a binary neutron star merger scenario.
Italy, Netherlands
- Max Planck Society Germany
- University of Colorado Boulder United States
- University of California, San Francisco United States
- University of California, Santa Barbara United States
- Utrecht University Netherlands
transients: supernovae, High Energy Astrophysical Phenomena (astro-ph.HE), (transients:) gamma-ray bursts, Space and Planetary Science, (transients:) neutron star mergers, FOS: Physical sciences, Astronomy and Astrophysics, (transients:) gamma-ray bursts; (transients:) neutron star mergers; transients: supernovae, Astrophysics - High Energy Astrophysical Phenomena
transients: supernovae, High Energy Astrophysical Phenomena (astro-ph.HE), (transients:) gamma-ray bursts, Space and Planetary Science, (transients:) neutron star mergers, FOS: Physical sciences, Astronomy and Astrophysics, (transients:) gamma-ray bursts; (transients:) neutron star mergers; transients: supernovae, Astrophysics - High Energy Astrophysical Phenomena
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These citations are derived from selected sources.
This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
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This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.
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This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.
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DFG| unidentified, NSF| Extending the Teach of Gravitational-Wave Detectors through Low Latency Data Products, Unmodeled Searches, and Detector Characterization, NSF| Track 4: Advanced CI Coordination Ecosystem: Monitoring and Measurement Services, NSF| HDR Institute: Accelerated AI Algorithms for Data-Driven Discovery
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