Phenomenology from relativistic Levy-Schroedinger equations: Application   to neutrinos

Nicola Cufaro Petroni; Modesto Pusterla

arXiv:1209.6259·hep-ph·March 21, 2013

Phenomenology from relativistic Levy-Schroedinger equations: Application to neutrinos

Nicola Cufaro Petroni, Modesto Pusterla

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TL;DR

This paper explores a novel connection between Feynman propagators and Levy stochastic processes, applying this framework to neutrinos within the Standard Model, yielding results consistent with experimental data.

Contribution

It introduces a new approach linking relativistic Levy-Schroedinger equations to quantum field theory, specifically applied to neutrino phenomenology.

Findings

01

Qualitative insights into neutrino behavior from Levy processes

02

Quantitative results aligning with experimental neutrino data

03

Extension of the approach to Standard Model particles

Abstract

In continuation of a previous paper a close connection between Feynman propagators and a particular L\'evy stochastic process is established. The approach can be easily applied to the Standard Model SU_C(3)xSU_L(2)xU(1) providing qualitative interesting results. Quantitative results, compatible with experimental data, are obtained in the case of neutrinos.

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Taxonomy

TopicsCosmology and Gravitation Theories · Particle physics theoretical and experimental studies · Quantum Mechanics and Applications