Quantum Correlations in Neutrino and Neutral Meson Oscillations

TL;DR

This paper explores how concepts from open quantum systems and quantum information theory illuminate the quantum correlations present in neutrino and neutral meson oscillations, revealing their dependence on oscillation probabilities and differences from stable particles.

Contribution

It introduces a novel analysis of quantum correlations in neutrino and meson oscillations using open quantum systems and quantum information frameworks.

Findings

Quantum correlations relate to oscillation probabilities.

Correlations in neutral mesons differ from stable particles.

Neutrino correlations are simple functions of survival and oscillation probabilities.

Abstract

We discuss the impact of ideas of open quantum systems and quantum information to various facets of neutrino and neutral meson oscillations. These oscillations are characterized by a number of quantum correlations, both spatial as well as temporal. For neutrinos, the correlations are shown to be simple functions of the product of neutrino survival and oscillation probabilities. The quantum correlations in the neutral mesons are seen to be non-trivially different from their stable counterparts.