Statistical methods for thermonuclear reaction rates and nucleosynthesis simulations

C. Iliadis R. Longland A. Coc 1 F.X. Timmes A.E. Champagne 2
1 CSNSM AN
CSNSM - Centre de Spectrométrie Nucléaire et de Spectrométrie de Masse, CSNSM - Centre de Sciences Nucléaires et de Sciences de la Matière
2 ITEM - Identités, Territoires, Expressions, Mobilités
UPPA - Université de Pau et des Pays de l'Adour : EA3002
Abstract : Rigorous statistical methods for estimating thermonuclear reaction rates and nucleosynthesis are becoming increasingly established in nuclear astrophysics. The main challenge being faced is that experimental reaction rates are highly complex quantities derived from a multitude of different measured nuclear parameters (e.g., astrophysical S-factors, resonance energies and strengths, particle and γ-ray partial widths). We discuss the application of the Monte Carlo method to two distinct, but related, questions. First, given a set of measured nuclear parameters, how can one best estimate the resulting thermonuclear reaction rates and associated uncertainties? Second, given a set of appropriate reaction rates, how can one best estimate the abundances from nucleosynthesis (i.e., reaction network) calculations? The techniques described here provide probability density functions that can be used to derive statistically meaningful reaction rates and final abundances for any desired coverage probability. Examples are given for applications to s-process neutron sources, core-collapse supernovae, classical novae, and Big Bang nucleosynthesis.
Type de document :
Article dans une revue
Journal of Physics G Nuclear Physics, Institute of Physics (IOP), 2015, iop publishing, pp.034007. 〈10.1088/0954-3899/42/3/034007〉
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Contributeur : Emilie Bonnardel <>
Soumis le : mercredi 6 mai 2015 - 17:05:41
Dernière modification le : jeudi 11 janvier 2018 - 06:26:31

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C. Iliadis, R. Longland, A. Coc, F.X. Timmes, A.E. Champagne. Statistical methods for thermonuclear reaction rates and nucleosynthesis simulations. Journal of Physics G Nuclear Physics, Institute of Physics (IOP), 2015, iop publishing, pp.034007. 〈10.1088/0954-3899/42/3/034007〉. 〈in2p3-01149311〉

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