Neutrino spin oscillations in gravitational fields in higher dimensions

TL;DR

This paper investigates how neutrino spin oscillations occur in higher-dimensional gravitational fields, analyzing transition probabilities and oscillation frequencies in Schwarzschild and Reissner-Nordström backgrounds to deepen understanding of gravity-neutrino interactions beyond four dimensions.

Contribution

It provides the first detailed analysis of neutrino spin oscillations in higher-dimensional gravitational backgrounds, extending previous four-dimensional studies.

Findings

Transition probability depends on time and orbital radius.

Oscillation frequency varies with the gravitational background.

Results enhance understanding of gravity and neutrino behavior in higher dimensions.

Abstract

Neutrino physics in one of the most active fields of research with important implications for particle physics, cosmology and astrophysics. On the other hand, motivated by some theories including string theory, formulation of physical theories in more than four space-time dimensions has been the subject of increasing attention in recent years. Interaction of neutrinos with gravitational fields is one of the interesting phenomena which can lead to transition between different helicity states (spin oscillations). We study neutrino spin oscillations in Schwarzschild and RN backgrounds in higher dimensional gravitational fields. We calculate the transition probability as a function of time and also study the dependence of the oscillation frequency on the orbital radius. The results help us to better understand the behavior of gravity and neutrinos in higher dimensions.