Extraction of the Coulomb Sum Rule, Transverse Enhancement, and Longitudinal Quenching from an Analysis of all Available e-12C and e-16O Cross Section Data

Abstract

We report on a phenomenological analysis of all available electron scattering data on 12C (about 6600 differential cross section measurements) and on 16O (about 250 measurements) within the framework of the quasielastic (QE) superscaling model (including Pauli blocking). All QE and inelastic cross section measurements are included down to the lowest momentum transfer q (including photo-production data). We find that there is enhancement of the transverse QE response function (RTQE) and quenching of the QE longitudinal response function (RLQE) at low q (in addition to Pauli blocking). We extract parameterizations of a multiplicative low q "Longitudinal Quenching Factor" and an additive "Transverse Enhancement" contribution. Additionally, we find that the excitation of nuclear states contribute significantly (up to 30\%) to the Coulomb Sum Rule SL( q). We extract the most accurate determination of SL( q) to date and find it to be in reasonable agreement with recent theoretical calculations.