Astrophysical neutrino oscillations accounting for neutrino charge radii

Konstantin Kouzakov; Fedor Lazarev; Vadim Shakhov; Konstantin; Stankevich; Alexander Studenikin

arXiv:2102.05650·hep-ph·February 12, 2021

Astrophysical neutrino oscillations accounting for neutrino charge radii

Konstantin Kouzakov, Fedor Lazarev, Vadim Shakhov, Konstantin, Stankevich, Alexander Studenikin

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TL;DR

This paper derives a novel effective Hamiltonian for neutrino oscillations considering neutrino charge radii and anapole moments, with potential astrophysical applications.

Contribution

It introduces the first effective neutrino evolution Hamiltonian that includes effects of neutrino charge radii and anapole moments.

Findings

01

Derived the effective Hamiltonian incorporating charge radii and anapole moments.

02

Highlights potential astrophysical implications of neutrino electromagnetic properties.

Abstract

We derive for the first time an effective neutrino evolution Hamiltonian accounting for neutrino interactions with external magnetic field due to neutrino charge radii and anapole moment. The results are interesting for possible applications in astrophysics.

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