Global Extraction of the 12C Nuclear Electromagnetic Response Functions ( RL and RT) and Comparisons to Nuclear Theory and Neutrino/Electron Monte Carlo Generators

Abstract

We have performed a global extraction of the 12C longitudinal ( RL) and transverse ( RT) nuclear electromagnetic response functions from an analysis of all available electron scattering data on carbon. The response functions are extracted for energy transfer , spanning the nuclear excitation, quasielastic (QE), resonance and inelastic continuum over a large range of the square of the four-momentum transfer, Q2. In addition, we perform a universal fit to all 12C electron scattering data which also provides parmeterizations of RL and RT over a larger kinematic range. Given the nuclear physics common to both electron and neutrino scattering from nuclei, extracted response functions from electron scattering spanning a large range of Q2 and also provide a powerful tool for validation and tuning of neutrino Monte Carlo (MC) generators. In this paper we focus on the nuclear excitation, single nucleon (QE-1p1h) and two nucleon (2p2h) final state regions and compare the measurements to theoretical predictions including ``Energy Dependent-Relativistic Mean Field'' (ED-RMF), ``Green's Function Monte Carlo'' (GFMC), "Short Time Approximation Quantum Monte Carlo" (STA-QMC), an improved superscaling model (SuSAv2), "Correlated Fermi Gas" (CFG), as well as the , and ~ generators. Combining the ED-RMF-QE-1p1h predictions with the SuSAv2-MEC-2p2h predictions provides a good description of RL and RT for both single nucleon (from QE and nuclear excitations) and two nucleon final states over the entire kinematic range.