Dixon-Souriau equations from a 5-dimensional spinning particle in a   Kaluza-Klein framework

Francesco Cianfrani; Irene Milillo; Giovanni Montani

arXiv:gr-qc/0701157·gr-qc·November 26, 2008

Dixon-Souriau equations from a 5-dimensional spinning particle in a Kaluza-Klein framework

Francesco Cianfrani, Irene Milillo, Giovanni Montani

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TL;DR

This paper derives Dixon-Souriau equations for a charged spinning particle within a 5D Kaluza-Klein framework, revealing electric dipole moments and explaining parity and time-reversal violations in elementary particles.

Contribution

It presents a novel dimensional reduction of Papapetrou equations leading to Dixon-Souriau results in a Kaluza-Klein setting, connecting higher-dimensional geometry with particle properties.

Findings

01

Electric dipole moments are generated through dimensional splitting.

02

Parity and time-reversal violations are explained for elementary particles.

03

Dixon-Souriau equations are derived from a 5D spinning particle model.

Abstract

The dimensional reduction of Papapetrou equations is performed in a 5-dimensional Kaluza-Klein background and Dixon-Souriau results for the motion of a charged spinning body are obtained. The splitting provides an electric dipole moment, and, for elementary particles, the induced parity and time-reversal violations are explained.

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