Physical properties of elementary particles: Inertia and Interaction

TL;DR

This paper explores the physical properties of elementary particles, proposing models based on the relationship between their inertia and interaction centers, leading to a classical description of spinning particles and potential modifications to interaction theories.

Contribution

It introduces a novel framework distinguishing the centers of inertia and interaction, deriving a classical spinning Dirac particle, and suggests modifications to the interaction Lagrangian for strong and weak forces.

Findings

Classical description of spinning Dirac particles derived.

Relationship between centers influences particle modeling.

Potential modifications to interaction Lagrangians proposed.

Abstract

Matter has two physical properties: Inertia and interaction. If we define the center of mass of an elementary particle in relation to its inertia, and a center of interaction in relation to its interactive properties, there are only two possibilities to describe this elementary particle: that both points are the same or that they are different. If they are the same, what we describe is the point particle model, while if we consider them to be different, what we obtain is the description of an elementary spinning particle. If the center of interaction or center of charge is moving at the speed of light, completely determines also the dynamics of the center of mass, and when quantizing this model satisfies Dirac's equation. We obtain the classical description of the spinning Dirac particle. The general analysis of the interaction Lagrangian, suggests a modification of the minimal coupling Lagrangian, for a possible classical description of the strong and weak interaction.