The Role of Final State Interactions in Quasielastic 56Fe(e,e') Reactions at large | q|

Abstract

A relativistic finite nucleus calculation using a Dirac optical potential is used to investigate the importance of final state interactions [FSI] at large momentum transfers in inclusive quasielastic electronuclear reactions. The optical potential is derived from first-order multiple scattering theory and then is used to calculate the FSI in a nonspectral Green's function doorway approach. At intermediate momentum transfers excellent predictions of the quasielastic 56Fe(e,e') experimental data for the longitudinal response function are obtained. In comparisons with recent measurements at | q|=1.14~GeV/c the theoretical calculations of RL give good agreement for the quasielastic peak shape and amplitude, but place the position of the peak at an energy transfer of about 40~MeV higher than the data.

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