Nuclear correlation and finite interaction-range effects in high-energy (e, e"� p) nuclear transparency

Nuclear transparency is calculated for high-energy, semi-inclusive (e, e′p) reactions, by accounting for all orders of Glauber multiple-scattering and by using realistic finite-range pN interaction and (dynamically and statistically) correlated nuclear wave functions. The nuclear correlation effect is reduced due to the pN finite-range effect, and is only a few percent for a given one-body density, depending on details of the (presently poorly known) nuclear correlations in finite nuclei.