Matter effects on flavor transitions of high-energy astrophysical neutrinos based on typical propagation schemes

Abstract

Precise measurements of the flavor ratio of high energy astronomical neutrinos (HANs) would be promising in the following decades. Then matter effects and new physics effects on the flavor transition of HANs could be tested. In this paper, we examine matter effects on the flavor composition of HANs. The effects are dependent on propagation schemes and sources of neutrinos. We consider propagations in environments with adiabatically varying and constant electron density. In the adiabatic case, the matter influence on the flavor composition of HANs at Earth is noticeable at the electron density 1010 cm-3 in the cases of muon damping and neutron decaying sources. In contrast, in the constant density case, the matter effect can be neglected even at the density 1018 cm-3. Thus, observations from next-generation neutrino telescopes may set stringent constraints on the adiabatic propagation scheme.

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