Hadronic Electroweak Spin-Torsion Interactions

TL;DR

This paper explores how spin-torsion interactions in fermion systems can resemble electroweak forces, extending previous work from leptons to hadrons and discussing potential differences and future extensions.

Contribution

It generalizes the field equations for two-fermion systems, showing that spin-torsion interactions can mimic electroweak forces among hadrons, expanding prior leptonic models.

Findings

Spin-torsion interactions resemble electroweak forces among hadrons.

Generalized field equations for two-fermion systems.

Discussed possible differences and future extensions.

Abstract

In a previous paper we considered the most general field equations for a system of two fermions of which one single-handed, showing that the spin-torsion interactions among these spinors had the same structure of the electroweak forces among leptons; in this paper we consider the most general field equations for a system of two fermions, showing that the spin-torsion interactions among these spinors have a structure similar to that of the electroweak forces among hadrons: possible differences are discussed, and consequently further extensions are speculated.