Data di Pubblicazione:
1999
Abstract:
The cross sections for electron-induced two-nucleon knockout reactions are evaluated for the example of the 16O(e,e'pn)14N reaction leading to discrete states in the residual nucleus 14N. These calculations account for
the effects of nucleon-nucleon correlations and include the contributions of two-body meson exchange currents as the pion seagull, pion in flight, and the isobar current contribution. The effects of short-range as well as
tensor correlations are calculated within the framework of the coupled cluster method employing the Argonne V14 potential as a model for a realistic nucleon-nucleon interaction. The relative importance of correlation
effects as compared to the contribution of the meson exchange currents depends on the final state of the residual nucleus. The cross section leading to specific states, such as, e.g., the ground state of 14N, is rather
sensitive to the details of the correlated wave function.
the effects of nucleon-nucleon correlations and include the contributions of two-body meson exchange currents as the pion seagull, pion in flight, and the isobar current contribution. The effects of short-range as well as
tensor correlations are calculated within the framework of the coupled cluster method employing the Argonne V14 potential as a model for a realistic nucleon-nucleon interaction. The relative importance of correlation
effects as compared to the contribution of the meson exchange currents depends on the final state of the residual nucleus. The cross section leading to specific states, such as, e.g., the ground state of 14N, is rather
sensitive to the details of the correlated wave function.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
nuclear correlations; electron scattering; two-nucleon knockout reactions
Elenco autori:
Giusti, Carlotta; Muether, H; Pacati, Francodavide; Stauf, M.
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