Mass generation of elementary particles and origin of the fundamental   forces in algebraic quantum theory

C. Pierre

arXiv:0709.3385·physics.gen-ph·September 24, 2007·1 cites

Mass generation of elementary particles and origin of the fundamental forces in algebraic quantum theory

C. Pierre

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TL;DR

This paper proposes an algebraic quantum theory framework to explain the mass generation of elementary particles and the origin of fundamental forces through complex interactions of semiobjects and bilinear interactions.

Contribution

It introduces a novel algebraic approach modeling fermion interactions, semiobjects, and fundamental forces to explain particle mass and force origins.

Findings

01

A new algebraic model for fermion interactions.

02

Explanation of mass generation mechanisms.

03

Derivation of fundamental force origins from semiobject interactions.

Abstract

The main thesis of this paper deals with the interactions of a set of fermions which are described by one basic type of bilinear interactions,two symmetric semiobjects,three embedded shells and four fundamental (strong) gravito-electro-magnetic forces between left and right semiobjects,i.e semifermions.

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Taxonomy

TopicsQuantum Mechanics and Applications · Noncommutative and Quantum Gravity Theories · Black Holes and Theoretical Physics