The Mass Ratio Between Neutrinos and Charged Leptons

She-Sheng Xue; Giuliano Preparata

arXiv:hep-lat/9401033·hep-lat·March 2, 2022

The Mass Ratio Between Neutrinos and Charged Leptons

She-Sheng Xue, Giuliano Preparata

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TL;DR

This paper uses a Planck lattice electroweak theory to explain the large mass difference between neutrinos and charged leptons, predicting a ratio consistent with experimental data.

Contribution

It introduces a lattice-based electroweak model that approximately solves the Dyson equation to derive mass ratios based on gauge couplings.

Findings

01

Mass ratio between neutrinos and charged leptons is predicted as 10^{-5} to 10^{-6}.

02

The model's predictions align with current experimental measurements.

03

Different gauge couplings account for the mass disparity.

Abstract

In the framework of the recently proposed electroweak theory on a Planck lattice, we are able to solve approximately the lattice Dyson equation for the fermion self-energy functions and show that the large difference of charged lepton and neutrino masses is caused by their very different gauge couplings. The predicted mass ratio ( $1 0^{- 5} \sim 1 0^{- 6}$ ) between neutrinos and charged lepton is compatible with present experiments.

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Taxonomy

TopicsCosmology and Gravitation Theories · Computational Physics and Python Applications · Particle physics theoretical and experimental studies