Artículo
Selective nuclear transparency induced by chaotic scattering
Autor/es | Dasso, Carlos Hugo
Gallardo Fuentes, María Isabel Saraceno, Marcos |
Departamento | Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear |
Fecha de publicación | 1996-10-28 |
Fecha de depósito | 2017-03-28 |
Publicado en |
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Resumen | We investigate the effects of nuclear absorption on the population of intrinsic vibrational states in scattering processes involving heavy ions. It is found that at the classical level the removal of flux assumes a ... We investigate the effects of nuclear absorption on the population of intrinsic vibrational states in scattering processes involving heavy ions. It is found that at the classical level the removal of flux assumes a qualitatively different form in the regular or chaotic regimes. Specifically, it is shown how certain reaction channels turn out to be—in the latter case—relatively insensitive to the strength of the absorptive potential. This realization has a counterpart at the quantum level where, at the chaotic layer, conditions of selective transparency in the nuclear system are enforced. |
Identificador del proyecto | Bo 1109/1
Pid. 3233/92 PB95-0533-A CHRX-CT92-0075 |
Cita | Dasso, C.H., Gallardo Fuentes, M.I. y Saraceno, M. (1996). Selective nuclear transparency induced by chaotic scattering. Physical Review Letters, 77 (18), 3747-3750. |
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