Validating (d,pγ) as a surrogate for neutron capture

A. Ratkiewicz; J. A. Cizewski; S. D. Pain; A. S. Adekola; J. T. Burke; R. J. Casperson; N. Fotiades; M. McCleskey; S. Burcher; C. M. Shand; R. A.E. Austin; T. Baugher; M. P. Carpenter; M. Devlin; J. E. Escher; S. Hardy; R. Hatarik; M. E. Howard; R. O. Hughes; K. L. Jones; R. L. Kozub; C. J. Lister; B. Manning; J. M. O'Donnell; W. A. Peters; T. J. Ross; N. D. Scielzo; D. Seweryniak; S. Zhu

Conference ProceedingsOPEN ACCESS

Validating (d,pγ) as a surrogate for neutron capture

EPJ Web of Conferences (2015) 93

DOI: 10.1051/epjconf/20159302012

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Abstract

The r-process is responsible for creating roughly half of the elements heavier than iron. It has recently become understood that the rates at which neutron capture reactions proceed at late times in the r-process may dramatically affect the final abundance pattern. However, direct measurements of neutron capture reaction rates on exotic nuclei are exceptionally difficult, necessitating the development of indirect approaches such as the surrogate technique. The (d,pγ) reaction at low energies was identified as a promising surrogate for the (n,γ) reaction, as both reactions share many characteristics. We report on a program to validate (d,pγ) as a surrogate for (n,γ) using 95Mo as a target. The experimental campaign includes direct measurements of the γ-ray intensities from the decay of excited states populated in the 95Mo(n,γ) and 95Mo(d,pγ) reactions.

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Ratkiewicz, A., Cizewski, J. A., Pain, S. D., Adekola, A. S., Burke, J. T., Casperson, R. J., … Zhu, S. (2015). Validating (d,pγ) as a surrogate for neutron capture. In EPJ Web of Conferences (Vol. 93). EDP Sciences. https://doi.org/10.1051/epjconf/20159302012

Validating (d,pγ) as a surrogate for neutron capture

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