Probing neutrino mass hierarchies and φ13 with supernova neutrinos

Abstract

We investigate the feasibility of probing the neutrino mass hierarchy and the mixing angle φ13 with the neutrino burst from a future supernova. An inverse power-law density rn with varying n is adopted in the analysis as the density profile of a typical core-collapse supernova. The survival probabilities of e and e are shown to reduce to two-dimensional functions of n and φ13. It is found that in the n-2 φ13 parameter space, the 3D plots of the probability functions exhibit highly non-trivial structures that are sensitive to the mass hierarchy, the mixing angle φ13, and the value of n. The conditions that lead to observable differences in the 3D plots are established. With the uncertainty of n considered, a qualitative analysis of the Earth matter effect is also included.

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