Constraining the Violation of Equivalence Principle with IceCube Atmospheric Neutrino Data

Abstract

The recent high-statistics high-energy atmospheric neutrino data collected by IceCube open a new window to probe new physics scenarios that are suppressed in lower energy neutrino experiments. In this paper we analyze the IceCube atmospheric neutrino data to constrain the Violation of Equivalence Principle (VEP) in the framework of three neutrinos with non-universal gravitational couplings. In this scenario the effect of VEP on neutrino oscillation probabilities can be parametrized by two parameters γ21 γ2-γ1 and γ31 γ3-γ1, where γi's denote the coupling of neutrino mass eigenstates to gravitational field. By analyzing the latest muon-tracks data sets of IceCube-40 and IceCube-79, besides providing the 2D allowed regions in (φγ21,φγ31) plane, we obtain the upper limits |φγ21| < 9.1× 10-27 (at 90\% C.L.) which improves the previous limit by 4 orders of magnitude and |φγ31| 6× 10-27 (at 90\% C.L.) which improves the current limit by 1 order of magnitude. Also we discuss in detail and analytically the effect of VEP on neutrino oscillation probabilities.