Light Bosons of Electromagnetic Field and Breakdown of Relativistic   Theory

V. N. Minasyan

arXiv:0808.0567·physics.gen-ph·March 25, 2009·4 cites

Light Bosons of Electromagnetic Field and Breakdown of Relativistic Theory

V. N. Minasyan

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TL;DR

This paper proposes a new quantisation scheme for electromagnetic waves using a nonideal Bose-gas model with massive light bosons, challenging the foundations of Einstein's relativistic theory and the concept of spontaneous symmetry breaking.

Contribution

It introduces a novel model of electromagnetic waves with massive bosons, questioning established relativistic principles and symmetry concepts.

Findings

01

Electromagnetic waves modeled as massive bosons instead of photons.

02

Challenges to Einstein's relativistic theory based on the new model.

03

Implications for the understanding of symmetry breaking in physics.

Abstract

In our analysis, a quantisation scheme for local electromagnetic waves in vacuum is introduced by the model of nonideal Bose-gas consisting of Bose-light-particles (which are no photons) with spin one and a finite mass. This fact destroys the Relativistic Theory of Einstein as well as displays a wrong sound of so-called a spontaneous breakdown of symmetry because the light boson can be moved by speed of wave in vacuum.

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Taxonomy

TopicsGeophysics and Sensor Technology · Relativity and Gravitational Theory