Three-Neutrino Oscillations of Atmospheric Neutrinos, theta13, Neutrino Mass Hierarchy and Iron Magnetized Detectors

Abstract

We derive predictions for the Nadir angle (thetan) dependence of the ratio Nmu-/Nmu+ of the rates of the mu- and mu+ multi-GeV events, and for the mu- - mu+ event rate asymmetry, Amu-mu+=[Nmu- - Nmu+]/[Nmu- + Nmu+], in iron-magnetized calorimeter detectors (MINOS, INO) in the case of 3-neutrino oscillations of the atmospheric numu and antinumu, driven by one neutrino mass squared difference, |Delta m231| >> Delta m221. The asymmetry Amu- mu+ (the ratio Nmu-/Nmu+) is shown to be particularly sensitive to the Earth matter effects in the atmospheric neutrino oscillations, and thus to the values of sin2(theta13) and sin2(theta23), theta13 and theta23 being the neutrino mixing angles limited by the CHOOZ and Palo Verde experiments and that responsible for the dominant atmospheric numu -> nutau (antinumu -> antinutau) oscillations. It is also very sensitive to the type of neutrino mass spectrum which can be with normal (Delta m231>0) or with inverted (Delta m231 < 0) hierarchy. We find that for sin2(theta23)>0.50, sin2(2 theta13)>0.06 and Delta m231=(2-3) 10-3 eV2, the Earth matter effects produce a relative difference between the integrated asymmetries barAmu- mu+ and barA2numu- mu+$ in the mantle (cos(thetan)=0.30-0.84) and core (cos(thetan)=0.84-1.0) bins, which is bigger in absolute value than ~15%, can reach the values of (30-35)%, and thus can be sufficiently large to be observable. The sign of the indicated asymmetry difference is anticorrelated with the sign of Delta m231. An observation of the Earth matter effects in the Nadir angle distribution of the asymmetry Amu- mu+ (ratio Nmu-/Nmu+) would clearly indicate that sin2(2 theta13)>0.06 and sin2(theta23)>0.50, and would lead to the determination of the sign of Delta m231.

0

Turn this paper into a full lesson

ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.

Discussion (0)

Sign in to join the discussion.

Loading comments…