par Brau, Fabian 
;Michel, Francis;Reidemeister, Guy
Référence Physical review. C. Nuclear physics, 57, 3, page (1386-1397)
Publication Publié, 1998
;Michel, Francis;Reidemeister, Guy Référence Physical review. C. Nuclear physics, 57, 3, page (1386-1397)
Publication Publié, 1998
Article révisé par les pairs
| Résumé : | We investigate the properties of the optical model wave function for light heavy-ion systems where absorption is incomplete, such as [Formula Presented] Ca and [Formula Presented] O around 30 MeV incident energy. Strong focusing effects are predicted to occur well inside the nucleus where the probability density can reach values much higher than that of the incident wave. This focusing is shown to be correlated with the presence at back angles of a strong enhancement in the elastic cross section, the so-called ALAS (anomalous large angle scattering) phenomenon; this is substantiated by calculations of the quantum probability flux and of classical trajectories. To clarify this mechanism, we decompose the scattering wave function and the associated probability flux into their barrier and internal wave contributions within a fully quantal calculation. Finally, a calculation of the divergence of the quantum flux shows that when absorption is incomplete, the focal region gives a sizable contribution to nonelastic processes. |
