Abstract
We extend the formalism of weak interaction processes, obtaining new expressions for the transition rates, which greatly facilitate numerical calculations, for both neutrino-nucleus reactions and muon capture. Explicit violation of the conserved vector current hypothesis by the Coulomb field, as well as development of a sum-rule approach for inclusive cross sections, has been worked out. We have done a thorough study of exclusive (ground-state) properties of and within the projected quasiparticle random phase approximation (PQRPA). Good agreement with experimental data achieved in this way put into evidence the limitations of the standard RPA and QRPA models, which come from the inability of the RPA to open the shell and from the nonconservation of the number of particles in the QRPA. The inclusive neutrino/antineutrino () reactions (N and (B are calculated within both the PQRPA and the relativistic QRPA. It is found that (i) the magnitudes of the resulting cross sections are close to the sum-rule limit at low energy, but significantly smaller than this limit at high energies, for both and ; (ii) they increase steadily when the size of the configuration space is augmented, particularly for energies 200 MeV; and (iii) they converge for sufficiently large configuration space and final-state spin. The quasi-elastic (N cross section recently measured in the MiniBooNE experiment is briefly discussed. We study the decomposition of the inclusive cross section based on the degree of forbiddenness of different multipoles. A few words are dedicated to the - charge-exchange reactions related to astrophysical applications.
6 More- Received 12 May 2010
DOI:https://doi.org/10.1103/PhysRevC.83.024303
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