Neutrino flavor oscillations and spin rotation in matter and electromagnetic field

Citations Over TimeTop 10% of 2020 papers

Abstract

We obtain a relativistically covariant wave equation for neutrinos in dense matter and electromagnetic field, which describes both flavor oscillations and neutrino spin rotation. Using this equation we construct a quasiclassical theory of these phenomena. We obtain the probabilities of arbitrary spin-flavor transitions assuming the external conditions to be constant. We demonstrate that the resonance behavior of the transition probabilities is possible only when the neutrino flavor states cannot be described as superpositions of the mass eigenstates. We discover that a resonance, which is similar to the Mikheev--Smirnov--Wolfenstein resonance, takes place for neutrinos in magnetic field due to the transition magnetic moments. This resonance gives an opportunity to determine, whether neutrinos are Dirac or Majorana particles.

Related Papers

• → Shell model calculations for neutrinoless double beta decay(2015)
• → Phenomenological analysis of properties of the right-handed Majorana neutrino in the seesaw mechanism(2002)
• → Neutrinos: Dirac or Majorana?(2007)
• → Research in Neutrinoless Double-Beta Decay (Final Report)(2021)