Abstract
The role of final state interactions in [ital y] scaling in quasielastic electronuclear reactions is investigated in a physically realistic model, which incorporates the final state interactions via the optical model Green's function. Relativistic and nonrelativistic complex optical potentials are utilized in finite nucleus, fully-off-shell, momentum space calculations to represent the final state interactions in an approach which has been shown to provide realistic descriptions of the separate response functions in the inclusive reaction. Analyses of the effects of Dirac dynamical degrees of freedom and final state interactions upon the separate longitudinal and transverse scaling functions are presented along with a discussion of the high momentum transfer dependence.
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