par Assunção, Marlete;Descouvemont, Pierre
Référence Physics letters. Section B, 723, 4-5, page (355-359)
Publication Publié, 2013-06
Article révisé par les pairs
Résumé : The 12C+12C fusion reaction is investigated in a multichannel folding model, using the density-dependent DDM3Y nucleon-nucleon interaction. The 12C(01+,2+,02+,3-) states are included, and their densities are taken from a microscopic cluster calculation. Absorption to fusion channels is simulated by a short-range imaginary potential, and the model does not contain any fitting parameter. We compute elastic and fusion cross sections simultaneously. The role of 12C+12C inelastic channels, and in particular of the 12C(01+)+12C(02+) channel involving the Hoyle state, is important even at low energies. In the Gamow region, the energy range relevant in astrophysics, inelastic channels increase the S factor by a factor of three. © 2013 Elsevier B.V.