Kerr's Gravity as a Quantum Gravity on the Compton Level

Alexander Burinskii

arXiv:gr-qc/0612187·gr-qc·May 23, 2007·5 cites

Kerr's Gravity as a Quantum Gravity on the Compton Level

Alexander Burinskii

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TL;DR

This paper explores how Kerr's gravity, when considered at the quantum level, influences electron behavior, space-time structure, and electromagnetic fields, suggesting a hidden geometric aspect in quantum theory.

Contribution

It proposes that Kerr geometry may underlie quantum phenomena, offering a new perspective on gravity's role at the Compton scale in quantum theory.

Findings

01

Kerr geometry significantly affects the electron's electromagnetic environment.

02

Space-time polarization and topology changes occur due to Kerr's gravitational influence.

03

Kerr geometry might be a hidden, complementary aspect of quantum theory.

Abstract

The Dirac theory of electron and QED neglect gravitational field, while the corresponding to electron Kerr-Newman gravitational field has very strong influence on the Compton distances. It polarizes space-time, deforms the Coulomb field and changes topology. We argue that the Kerr geometry may be hidden beyond the Quantum Theory, representing a complimentary space-time description.

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Taxonomy

TopicsQuantum Chromodynamics and Particle Interactions · Cold Atom Physics and Bose-Einstein Condensates · Relativity and Gravitational Theory