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Tidal forces in parametrized spacetime: Rezzolla-Zhidenko parametrization

Bobir Toshmatov, Bobomurat Ahmedov

2023Physical review. D/Physical review. D.13 citationsDOIOpen Access PDF

Abstract

We investigate the tidal forces exerted by a spherically symmetric static parametrized black hole. Our analysis reveals that the radial and angular components of the tidal forces exerted by the black hole can exhibit both positive and negative values near the black hole, depending on matters of the spacetime parameters. Unlike the scenario with the Schwarzschild black hole, where the radial tidal force (angular tidal force) is always stretching (compressing) and becomes infinite at the center of the spacetime, the parametrized black hole allows for finite and compressing (stretching) forces within the event horizon. Additionally, we derive the geodesic deviation equations for a particle in free fall and proceed to solve them through numerical methods. Our analysis demonstrates that the spacetime parameters $\ensuremath{\epsilon}$ and ${a}_{1}$ exhibit contrasting influences on the magnitudes of the physical quantities associated with tidal effects.

Topics & Concepts

SpacetimePhysicsTidal forceBlack hole (networking)Schwarzschild radiusRotating black holeEvent horizonClassical mechanicsSpherically symmetric spacetimeStationary spacetimeSchwarzschild metricSpacetime symmetriesPenrose processCharged black holeAngular momentumGeneral relativityQuantum field theory in curved spacetimeQuantum mechanicsComputer networkQuantum gravityRouting (electronic design automation)Link-state routing protocolRouting protocolQuantumComputer scienceAstrophysical Phenomena and ObservationsPulsars and Gravitational Waves ResearchExperimental and Theoretical Physics Studies
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