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Deviation of Geodesics, Particle Trajectories and the Propagation of Radiation in Gravitational Waves in Shapovalov Type III Wave Spacetimes

К. Е. Осетрин, Evgeny Osetrin, Elena Osetrina

2023Symmetry10 citationsDOIOpen Access PDF

Abstract

A class of exact (non-perturbative) models of strong gravitational waves based on Shapovalov type III spacetimes and Einstein’s vacuum equations is obtained. Exact solutions are found for the trajectories of particles and radiation in a gravitational wave in privileged coordinate systems. Exact solutions are obtained for the equations of geodesic deviation and tidal acceleration of particles in a gravitational wave in privileged coordinate systems. An explicit analytical law of transition from a privileged coordinate system to a synchronous reference system associated with a freely falling observer with an explicit selection of time and spatial coordinates is obtained. An explicit form of the metric of a gravitational wave in a synchronous frame of reference is obtained. For a synchronous frame of reference, the trajectories of particles and radiation, the deviation of geodesics, and tidal accelerations in a gravitational wave are obtained. The presented methods and approaches are applicable both to Einstein’s general theory of relativity and to modified theories of gravity.

Topics & Concepts

PhysicsGravitational waveGeodesicClassical mechanicsGeneral relativityCoordinate systemGravitationFrame of referenceObserver (physics)Gravitational accelerationMathematical analysisMathematicsGeometryAstrophysicsQuantum mechanicsCosmology and Gravitation TheoriesAdvanced Differential Geometry ResearchPulsars and Gravitational Waves Research
Deviation of Geodesics, Particle Trajectories and the Propagation of Radiation in Gravitational Waves in Shapovalov Type III Wave Spacetimes | Litcius