Correlations in neutrino-nucleus scattering

Abstract

We present a detailed study of charged-current quasielastic neutrino-nucleus scattering and of the influence of correlations on one- and two-nucleon knockout processes. The quasielastic neutrino-nucleus scattering cross sections, including the influence of long-range correlations, are evaluated within a continuum random phase approximation approach. The short-range correlation formalism is implemented in the impulse approximation by shifting the complexity induced by the correlations from the wave functions to the operators. The model is validated by confronting (e,e) cross-section predictions with electron scattering data in the kinematic region where the quasielastic channel is expected to dominate. Further, the 12C(,μ-) experiments are studied. Double differential cross sections relevant for neutrino-oscillation 12C(,μ-) cross sections, accounting for long- and short-range correlations in the one-particle emission channel and short-range correlations in the two-particle two-hole channel, are presented for kinematics relevant for recent neutrino-nucleus scattering measurements.