The Mikheyev-Smirnov-Wolfenstein Matter Potential at the One-loop Level in the Standard Model

Abstract

When neutrinos are propagating in ordinary matter, their coherent forward scattering off background particles results in the so-called Mikheyev-Smirnov-Wolfenstein (MSW) matter potential, which plays an important role in neutrino flavor conversions. In this paper, we present a complete one-loop calculation of the MSW matter potential in the Standard Model (SM). First, we carry out the one-loop renormalization of the SM in the on-shell scheme, where the electromagnetic fine-structure constant α, the weak gauge-boson masses mW and mZ, the Higgs-boson mass mh and the fermion masses mf are chosen as input parameters. Then, the finite corrections to the scattering amplitudes of neutrinos with the electrons and quarks are calculated, and the one-loop MSW matter potentials are derived. Adopting the latest values of all physical parameters, we find that the relative size of one-loop correction to the charged-current matter potential of electron-type neutrinos or antineutrinos turns out to be 6\%, whereas that to the neutral-current matter potential of all-flavor neutrinos or antineutrinos can be as large as 8\%. The calculations are also performed in the MS scheme and compared with previous results in the literature.