Radiative Corrections as Origin of Tiny Fermion Masses

Ashok K. Kapoor

arXiv:1502.07637·hep-th·February 27, 2015

Radiative Corrections as Origin of Tiny Fermion Masses

Ashok K. Kapoor

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TL;DR

This paper proposes that tiny fermion masses, such as neutrinos, may originate from broken stochastic supersymmetry, linking their smallness to fundamental quantum field theory mechanisms.

Contribution

It introduces a novel idea that small neutrino masses could result from broken stochastic supersymmetry, providing a potential explanation for their tiny values.

Findings

01

Neutrino masses may reflect broken stochastic supersymmetry

02

Stochastic quantization could explain fermion mass smallness

03

Proposes a new theoretical framework for fermion mass origin

Abstract

The fermion masses in the standard model are introduced as arbitrary parameters and there is no understanding of their origin. In this letter it is suggested that small non zero neutrino masses may be a reflection of broken stochastic supersymmetry that guarantees the equivalence of Parisi Wu stochastic quantization scheme to standard quantum field theory.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Neutrino Physics Research · Cosmology and Gravitation Theories