Spin Effects for Neutrinos and Electrons Moving in Dense Matter

A.V.Grigoriev; A.M.Savochkin; A.I.Studenikin; A.I.Ternov

arXiv:0804.2829·hep-ph·April 22, 2008·2 cites

Spin Effects for Neutrinos and Electrons Moving in Dense Matter

A.V.Grigoriev, A.M.Savochkin, A.I.Studenikin, A.I.Ternov

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TL;DR

This paper reviews current research on neutrino magnetic moments and explores quantum and quasiclassical models of neutrino and electron spin behavior in dense matter, highlighting recent theoretical advancements.

Contribution

It introduces a quantum wave equation approach to describe spin effects of neutrinos and electrons in dense matter, advancing beyond traditional models.

Findings

01

Quantum solutions reveal detailed spin dynamics in matter.

02

The quasiclassical approach provides simplified yet accurate descriptions.

03

New insights into neutrino-electron interactions in dense environments.

Abstract

We shortly summarize the present status of neutrino magnetic moment studies (theory and experiment). Then we discuss the quasiclassical treatment of neutrino spin evolution in matter. After that we come to the quantum approach to description of neutrino and electron motion in matter on the basis of the quantum wave equations exact solutions method with special focus on spin effects.

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Taxonomy

TopicsAtomic and Subatomic Physics Research · Dark Matter and Cosmic Phenomena · Neutrino Physics Research