Quantum-Mechanical Waves in Closed Vacuum States

Paul S. Wesson

arXiv:1012.6036·physics.gen-ph·December 30, 2010

Quantum-Mechanical Waves in Closed Vacuum States

Paul S. Wesson

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TL;DR

This paper proposes a novel wave-particle duality model based on embedding 4D anti-deSitter space in 5D space, offering new insights into particle mass through quantum-mechanical waves in closed vacuum states.

Contribution

It introduces a new theoretical framework linking extra-dimensional embedding to wave-particle duality and particle mass.

Findings

01

Wave behavior emerges from 5D embedding of 4D spacetime.

02

Provides a new approach to understanding particle mass.

03

Suggests a geometric origin of quantum waves in vacuum states.

Abstract

Campbell's theorem enables the embedding of 4D anti-deSitter space in 5D canonical space, so a particle becomes a wave in the extra dimension, running through spacetime. This model of wave-particle duality provides a new approach to particle mass.

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Taxonomy

TopicsMechanical and Optical Resonators · Geophysics and Sensor Technology