Measurements of μ and μ + μ charged-current cross-sections without detected pions nor protons on water and hydrocarbon at mean antineutrino energy of 0.86 GeV

Abstract

We report measurements of the flux-integrated μ and μ+μ charged-current cross-sections on water and hydrocarbon targets using the T2K anti-neutrino beam, with a mean neutrino energy of 0.86 GeV. The signal is defined as the (anti-)neutrino charged-current interaction with one induced μ and no detected charged pion nor proton. These measurements are performed using a new WAGASCI module recently added to the T2K setup in combination with the INGRID Proton module. The phase space of muons is restricted to the high-detection efficiency region, pμ>400~ MeV/c and θμ<30, in the laboratory frame. Absence of pions and protons in the detectable phase space of "pπ>200~ MeV/c and θπ<70", and "p p>600~ MeV/c and θ p<70" is required. In this paper, both of the μ cross-sections and μ+μ cross-sections on water and hydrocarbon targets, and their ratios are provided by using D'Agostini unfolding method. The results of the integrated μ cross-section measurements over this phase space are σ H2O\,=\,(1.0820.068( stat.)+0.145-0.128( syst.)) × 10-39~ cm2/nucleon, σ CH\,=\,(1.0960.054( stat.)+0.132-0.117( syst.)) × 10-39~ cm2/nucleon, and σ H2O/σ CH = 0.9870.078( stat.)+0.093-0.090( syst.). The μ+μ cross-section is σ H2O = (1.1550.064( stat.)+0.148-0.129( syst.)) × 10-39~ cm2/nucleon, σ CH\,=\,(1.1590.049( stat.)+0.129-0.115( syst.)) × 10-39~ cm2/nucleon, and σ H2O/σ CH\,=\,0.9960.069( stat.)+0.083-0.078( syst.).