Momentum chromospin classification of the fundamental fermions and bosons

TL;DR

This paper introduces the KSC framework, a novel scheme that parametrizes elementary particles by linking their internal symmetries with electromagnetic field boundaries, addressing charge, color, and spin properties.

Contribution

The KSC framework is a new theoretical approach connecting internal symmetries of particles with electromagnetic boundary conditions, explaining color charge and fermion generations.

Findings

Derives the emergence of QCD color from fractional electric charges.

Develops a theory of spin addressing three fermion generations.

Provides a unified parametrization of elementary particles.

Abstract

We present a momentum chromospin scheme, the $\mathsf{KSC}$-{\it framework}, for parametrizing the elementary particles using the underlying connection between their internal symmetries and their electromagnetic field boundaries. The linear momentum (or $\mathsf{K}$) chromospin branch of the framework deals with electric charge information, including the emergence of quantum chromodynamics color from fractional electric charges and its effect on quark confinement, while the angular momentum (or $\mathsf{S}$) chromospin branch of the framework develops the theory of spin to address the issue of three fermion generations.