Gravitomagnetism and spinor quantum mechanics

TL;DR

This paper systematically analyzes a spin-1/2 particle in combined electromagnetic and weak gravitational fields, focusing on the coupling of angular momenta to gravitomagnetic effects using the Dirac equation in curved spacetime.

Contribution

It provides a detailed derivation of the Dirac equation in a weak gravitational field and calculates the gravitational gyromagnetic ratio for a spin-1/2 particle.

Findings

Gravitational gyromagnetic ratio g_sub g = 1

Coupling of spin and orbital angular momentum to gravitomagnetic field

Extension of previous spin-zero particle work to spinor particles

Abstract

We give a systematic treatment of a spin 1/2 particle in a combined electromagnetic field and a weak gravitational field that is produced by a slowly moving matter source. This paper continues previous work on a spin zero particle, but it is largely self-contained and may serve as an introduction to spinors in a Riemann space. The analysis is based on the Dirac equation expressed in generally covariant form and coupled minimally to the electromagnetic field. The restriction to a slowly moving matter source, such as the earth, allows us to describe the gravitational field by a gravitoelectric (Newtonian) potential and a gravitomagnetic (frame-dragging) vector potential, the existence of which has recently been experimentally verified. Our main interest is the coupling of the orbital and spin angular momenta of the particle to the gravitomagnetic field. Specifically we calculate the gravitational gyromagnetic ratio as gsubg=1 ; this is to be compared with the electromagnetic gyromagnetic ratio of gsube=2 for a Dirac electron.