English

Second random-phase approximation with the Gogny force. First applications

Nuclear Theory 2015-06-05 v1 Nuclear Experiment

Abstract

We present the first applications of the second random-phase-approximation model with the finite-range Gogny interaction. We discuss the advantages of using such an interaction in this type of calculations where 2 particle-2 hole configurations are included. The results found in the present work confirm the well known general features of the second random-phase approximation spectra: we find a large shift, several MeV, of the response centroids to lower energies with respect to the corresponding random-phase-approximation values. As known, these results indicate that the effects of the 1 particle-1 hole/2 particle-2 hole and 2 particle-2 hole/2 particle-2 hole couplings are important. It has been found that the changes of the strength distributions with respect to the standard random-phase-approximation results are particularly large in the present case. This important effect is due to some large neutron-proton matrix elements of the interaction and indicates that these matrix elements (which do not contribute in the mean-field calculations employed in the conventional fit procedures of the force parameters) should be carefully constrained to perform calculations

Keywords

Cite

@article{arxiv.1208.0149,
  title  = {Second random-phase approximation with the Gogny force. First applications},
  author = {D. Gambacurta and M. Grasso and V. De Donno and G. Co' and F. Catara},
  journal= {arXiv preprint arXiv:1208.0149},
  year   = {2015}
}
R2 v1 2026-06-21T21:44:34.787Z