Litcius/Paper detail

Mass-Charge Metric in Curved Spacetime

Espen Gaarder Haug, Gianfranco Spavieri

2023International Journal of Theoretical Physics31 citationsDOIOpen Access PDF

Abstract

Abstract In the context of gravitational objects with spherical symmetry, we derive a solution to Einstein’s field equations using two methods leading to the same result. The first is based on a stress-energy tensor that takes into account both the electric field energy of the charge and the gravitational field energy of the mass. The second is based on the mass-energy equivalence and has more general validity. We show that the metric falls within the Weyl class of metrics, representing a static and axisymmetric solution to Einstein’s field equations. The metric, which has a form similar to that of Reisser-Nordström, is used for predictions in strong fields and possibly shows better agreement with observation in high z quasars.

Topics & Concepts

PhysicsEinstein field equationsGravitational fieldLinearized gravitySpacetimeMetric tensorClassical field theoryGravitationClassical mechanicsMetric (unit)Symmetry (geometry)Einstein tensorClassical unified field theoriesCharge (physics)Context (archaeology)Mathematical physicsStress–energy tensorQuantum mechanicsExact solutions in general relativityRiemann curvature tensorMathematicsMathematical analysisGeometryGeodesicPaleontologyOperations managementCurvatureEconomicsBiologyCosmology and Gravitation TheoriesPulsars and Gravitational Waves ResearchRelativity and Gravitational Theory