Statistical approach to study neutrino interactions

TL;DR

This paper explores a purely theoretical approach using fluctuation theory to better understand neutrino interactions and improve the precision of neutrino oscillation parameters amid experimental challenges.

Contribution

It introduces a novel theoretical framework employing fluctuation theory to study neutrino interactions, addressing gaps in current experimental knowledge.

Findings

Proposes a new theoretical model for neutrino interactions

Highlights potential for improved understanding of oscillation parameters

Suggests extensions of current theoretical frameworks

Abstract

Neutrino oscillation parameters can be understood in a better way by building a more complete picture of neutrino interactions. This poses a series of important theoretical and experimental challenges because of the elusive nature of neutrino and an inherent difficulty in its detection. This work is an attempt to study neutrino interactions through a purely theoretical approach using fluctuation theory. Though experiments are trying hard to shed more light on neutrino interactions, our knowledge of neutrino oscillation parameters is not precise at different energy levels. In this context, one cannot help but give a bold try to marvel at how far our theoretical frameworks can extend.