par Sparenberg, Jean-Marc 
;Baye, Daniel Jean ;Imanishi, B.
Référence Physical Review C (Nuclear Physics), 61, 5, page (10)
Publication Publié, 2000
;Baye, Daniel Jean ;Imanishi, B.Référence Physical Review C (Nuclear Physics), 61, 5, page (10)
Publication Publié, 2000
Article révisé par les pairs
| Résumé : | The elastic [Formula Presented] and inelastic [Formula Presented] scatterings are studied with a coupled-reaction-channel three-body model for [Formula Presented] below 40 MeV. Without any parameter fit, the results agree fairly well with experiment for various deep and shallow [Formula Presented] potentials. In regions where no experimental data are available, the theoretical cross sections are sensitive to the choice of [Formula Presented] potential. The comparison of calculations with exactly phase-equivalent deep and shallow [Formula Presented] potentials deduced from supersymmetric transformations shows that this sensitivity is not related to the presence or absence of Pauli forbidden states. Assuming charge symmetry, we also calculate cross sections for the elastic [Formula Presented] and inelastic [Formula Presented] scatterings. The elastic cross sections of both mirror collisions display a strong backward rise for [Formula Presented] MeV. Below 10 MeV, the inelastic [Formula Presented] excitation functions are strongly enhanced by the long range of the [Formula Presented] first excited state. © 2000 The American Physical Society. |
