Detection of the 4.4-MeV gamma rays from 16O(, )16O(12.97 MeV, 2-) with a water-Cherenkov detector in the supernova neutrino bursts
Abstract
We first discuss and determine the isospin mixing of the two 2- states (12.53 MeV and 12.97 MeV) of 16O nucleus using the inelastic electron scattering data. We then evaluate the cross section of 4.4-MeV γ rays produced in the neutrino neutral-current (NC) reaction 16O(, )16O(12.97 MeV, 2-) in a water Cherenkov detector at the low energy below 100 MeV. The detection of γ rays for Eγ>5 MeV from the NC reaction 16O(, )16O(Ex>16\ MeV, T=1) with a water Cherenkov detector in the supernova neutrino bursts has been proposed and discussed by several authors previously. In this article, we discuss a new NC reaction channel from 16O(12.97 MeV, 2-) producing a 4.4-MeV γ ray, the cross section of which is more robust and even larger at the low energy (E<25 MeV) than the NC cross section from 16O(Ex>16\ MeV, T=1). We also evaluate the number of such events induced by neutrinos from supernova explosion which can be observed by the Super-Kamiokande, a 32 kton water Cherenkov detector in the Earth.
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