par Pinilla Beltran, Edna Carolina 
;Descouvemont, Pierre ;Baye, Daniel Jean
Référence Physical review. C. Nuclear physics, 85, 5, 054610
Publication Publié, 2012-05-07
;Descouvemont, Pierre ;Baye, Daniel Jean Référence Physical review. C. Nuclear physics, 85, 5, 054610
Publication Publié, 2012-05-07
Article révisé par les pairs
| Résumé : | The 11Li breakup on a 208Pb target is studied in the Coulomb-corrected eikonal approximation by using a 9Li+n+n three-body description of the projectile. The 11Li wave functions are defined in the hyperspherical formalism for bound and scattering states and are obtained from effective 9Li+n and n+n interactions. We first determine 0 +, 1 -, and 2 + 9Li+n+n phase shifts, which suggest the existence of a narrow 1 - resonance near 0.5 MeV above threshold. The calculated breakup cross sections show a peak at low energies, in agreement with the data. The influence of monopole and quadrupole components is analyzed and shown to be non-negligible. We discuss the derivation of dipole strengths from experimental breakup cross sections and suggest that the simple Coulomb dipole approximation, traditionally used in the literature, should be replaced by more elaborate models. We also show that 11Li+208Pb elastic scattering measurements would provide an indirect test of the model. © 2012 American Physical Society. |
