Removal energies and final state interaction in lepton nucleus scattering

Abstract

Abstract We investigate the binding energy parameters that should be used in modeling electron and neutrino scattering from nucleons bound in a nucleus within the framework of the impulse approximation. We discuss the relation between binding energy, missing energy, removal energy ($$\epsilon$$ ϵ ), spectral functions and shell model energy levels and extract updated removal energy parameters from $$\hbox {ee}^{\prime }$$ ee′ p spectral function data. We address the difference in parameters for scattering from bound protons and neutrons. We also use inclusive e-A data to extract an empirical parameter U_{FSI}( (\varvec{q}_3+\varvec{k})^2) UFSI((q3+k)2) to account for the interaction of final state nucleons (FSI) with the optical potential of the nucleus. Similarly we use $$V_{eff}$$ Veff to account for the Coulomb potential of the nucleus. With three parameters $$\epsilon$$ ϵ , U_{FSI}( (\varvec{q}_3+\varvec{k})^2) UFSI((q3+k)2) and $$V_{eff}$$ Veff we can describe the energy of final state electrons for all available electron QE scattering data. The use of the updated parameters in neutrino Monte Carlo generators reduces the systematic uncertainty in the combined removal energy (with FSI corrections) from ± 20 to ± 5 MeV