A Theory of Flavour and Set of the Interaction Structural Parts

TL;DR

This paper develops a theoretical framework linking neutrino form factors, flavor conservation, and symmetries, proposing a structured set of interaction components that unify force interactions and particle properties.

Contribution

It introduces a novel theory connecting neutrino form factors, flavor symmetry, and force unification through a structured set of interaction components.

Findings

Flavor conservation as a theorem from cross section equality

Relation between flavor and mirror symmetries

Unification of force interactions in particle structure

Abstract

At the availability of a sharp interconnection, the difference in sizes with Dirac and Pauli form factors of a massive neutrino must constitute their linearly ordered set. Such a class of currents can lead in the field of a spinless nucleus to the constitution of a partially ordered set consisting of cross sections of polarized and unpolarized neutrino scattering. We discuss a theory, in which flavor conservation is predicted as a theorem about the equality of cross sections of the interaction with a gauge boson of leptonic current structural components. This theorem relates flavor and mirror symmetries as a consequence of force unification forming the two left-(right-) handed fermions in individual difermions. Thereby, it requires one to follow the logic of a true nature of elementary particles from the point of view of a flavor dynamics of all types of micro-world symmetry laws.