Energy and Momentum of a Stationary Beam of Light in the New General   Relativity

Gamal G.L. Nashed; Mohamed M. Mourad

arXiv:gr-qc/0610078·gr-qc·November 11, 2010

Energy and Momentum of a Stationary Beam of Light in the New General Relativity

Gamal G.L. Nashed, Mohamed M. Mourad

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TL;DR

This paper presents an exact solution in new general relativity that models the gravitational field of a stationary light beam, calculating its energy and momentum using Møller's energy-momentum complex.

Contribution

It introduces a new exact solution in the framework of new general relativity for a stationary light beam's gravitational field.

Findings

01

Derived the Bonnor spacetime solution for a stationary light beam

02

Calculated the energy and momentum of the solution using Møller's complex

03

Demonstrated the applicability of new general relativity to beam-like gravitational fields

Abstract

We give an exact solution to the gravitational field in the new general relativity. The solution creates Bonnor spacetime. This spacetime describes the gravitational field of a stationary beam of light. The energy and momentum of this solution is calculated using the energy-momentum complex given by M{\o}ller in (1978) within the framework of the Weitzenb{\rm $\overset{o}{¨}$ }ck spacetime.

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Taxonomy

TopicsRelativity and Gravitational Theory · Cosmology and Gravitation Theories · Geophysics and Sensor Technology