The ratio of γ / π0 production rates in neutrino-nucleus interactions at the resonance mass region

Abstract

We study the dependence of neutrino-induced γ/π0 production ( (-)μ + A (-)μ(μ) +γ/π0 + X) on the target nucleus A, at the resonance mass region. Our conclusion is based on experimental data for π0 production rates at photon-nucleus interactions from the A2 collaboration at the Mainz MAMI accelerator. We assume that resonance decays are independent of the production mechanism (via photon, Z, or W boson). In Neutral Current (NC) interactions, the 1π0 + X production scales as A2/3. In contrast, photons from decays typically escape the nucleus, resulting in a cross-section proportional to the atomic number A. Thus, in NC interactions, the ratio of γ production to π0 production is proportional to A1/3. In Charged Current (CC) μ( μ) -induced production of + (0) will be proportional to the number of neutrons (protons) in the nucleus. After decay, due to the charge universality in strong interactions, the suppression factor for π0 escaping the nucleus must also follow A-1/3, as in NC interactions. We predict the ratio of the γ / π0 production rates in NC and CC interactions and for μ and μ beams: Argon target: 3.1\% (NC/CC μ/ μ). Water target: 1.9\% (NC), 2.3\% (CC μ), 1.7\% (CC μ). Liquid Scintillator target: 1.7\% (NC), 2.1\% (CC μ), 1.6\% (CC μ). We also discuss solving the MiniBooNE anomaly by looking at the CC single photon and single neutral pion production rates at the SBN program experiments at Fermilab.