EPJ Web of Conferences (Jan 2018)

Experimental measurement of the 12C+16O fusion cross sections at astrophysical energies

  • Fang X.,
  • Tan W. P.,
  • Beard M.,
  • deBoer R. J.,
  • Gilardy G.,
  • Jung H.,
  • Liu Q.,
  • Lyons S.,
  • Robertson D.,
  • Setoodehnia K.,
  • Seymour C.,
  • Stech E.,
  • Vande Kolk B.,
  • Wiescher M.,
  • de Souza R.,
  • Hudan S.,
  • Singh V.,
  • Tang X. D.,
  • Uberseder E.

DOI
https://doi.org/10.1051/epjconf/201817804008
Journal volume & issue
Vol. 178
p. 04008

Abstract

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The total cross sections of the 12C+16O fusion have been experimentally determined at low energies to investigate the role of this reaction during late stellar evolution burning phases. A high-intensity oxygen beam was produced by the 5MV pelletron accelerator at the University of Notre Dame impinging on a thick ultra-pure graphite target. Protons and γ-rays were measured simultaneously in the center-of-mass energy range from 3.64 to 5.01 MeV, using strip silicon and HPGe detectors. Statistical model calculations were employed to interpret the experimental results. A new broad resonance-like structure is observed for the 12C+16O reaction, and a decreasing trend of its S-factor towards low energies is found.