Quantum Gravity signals in neutrino oscillations

TL;DR

This paper explores how a quantum gravity-induced minimal length could influence neutrino oscillations, providing testable predictions and discussing broader implications for minimal length effects in physics.

Contribution

It introduces a phenomenological framework to analyze minimal length effects on neutrino oscillations, independent of fundamental theories, and presents new results on minimal length thermodynamics.

Findings

Identifies clear signatures of minimal length in neutrino oscillations

Discusses the observability of these signatures in experiments

Provides an overview of minimal length effects in various scenarios

Abstract

We investigate the effect of a Quantum Gravity-induced minimal length on neutrino oscillations. The minimal length is implemented in a phenomenological framework, allowing us to make predictions independently of any fundamental approach. We obtain clear minimal length signatures and discuss their observability in current and future experiments. We present an overview over other scenarios in which the minimal length leaves its signature and show new results concerning minimal length thermodynamics.