Indirect measurement of the $$^3\hbox {He}$$(n,p)$$^3\hbox {H}$$ reaction cross section at Big Bang energies

Autor: Rebeka Kelmar, Stefan Typel, D. Lattuada, M. S. Kwag, Wanpeng Tan, D. Blankstein, V. Burjan, L. Boccioli, Roberta Spartà, S. Anguilar, M. R. Hall, J. Long, A. Gula, A. A. Oliva, A. Tumino, J. Mrazek, M. La Commara, C. Spitaleri, Patrick O'Malley, B. Frentz, G. D’Agata, G. G. Rapisarda, S. L. Henderson, S. Romano, Lauren Callahan, A. M. Clark, M. L. Sergi, G. L. Guardo, M. Mazzocco, D. W. Bardayan, Michael Wiescher, Sara Palmerini, Michael Skulski, K. Y. Chae, I. Indelicato, Manoel Couder, P. M. Prajapati, Austin Nelson, M. La Cognata, Sean R. McGuinness, S. M. Cha, Q. Liu, Livio Lamia, C. Spampinato, R. G. Pizzone, John Wilkinson, Christopher Seymour, Ashabari Majumdar
Rok vydání: 2020
Předmět:
Zdroj: The European Physical Journal A. 56
ISSN: 1434-601X
1434-6001
Popis: Nuclear reactions play a key role in the framework of the Big Bang Nucleosynthesis. A network of 12 principal reactions has been identified as the main path that drove the elemental nucleosynthesis in the first 20 min of the history of the Universe. Among them an important role is played by neutron-induced reactions, which, from an experimental point of view, are usually a difficult task to be measured directly. Nevertheless big efforts in the last decades have led to a better understanding of their role in the primordial nucleosynthesis network. In this work we apply the Trojan Horse Method to extract the cross section at astrophysical energies for the $$^3\text {He}$$ (n,p) $$^3\text {H}$$ reaction after a detailed study of the $$^2\hbox {H}$$ ( $$^3\text {He}$$ ,pt)H three-body process. Data extracted from the present measurement are compared with other published sets.
Databáze: OpenAIRE
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