Studies of Quantum-Mechanical Coherency Effects in Neutrino-Nucleus Elastic Scattering

Abstract

Neutrino-nucleus elastic scattering ( Ael) provides a unique laboratory to study the quantum-mechanical (QM) coherency effects in electroweak interactions. The deviations of the cross-sections from those of completely coherent systems can be quantitatively characterized through a coherency parameter α ( q2 ). The relations between α and the underlying nuclear physics in terms of nuclear form factors are derived. The dependence of cross-section on α ( q2 ) for the various neutrino sources is presented. The α ( q2 )-values are evaluated from the measured data of the COHERENT CsI and Ar experiments. Complete coherency and decoherency conditions are excluded by the CsI data with p = 0.004 at q2 = 3.1 × 103 ~ MeV2 and with p = 0.016 at q2 = 2.3 × 103 ~ MeV2, respectively, verifying that both QM superpositions and nuclear many-body effects contribute to Ael interactions.