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Geodesic congruences in exact plane wave spacetimes and the memory effect

Indranil Chakraborty, Sayan Kar

2020Physical review. D/Physical review. D.24 citationsDOIOpen Access PDF

Abstract

Displacement and velocity memory effects in the exact, vacuum, plane gravitational wave line element have been studied recently by looking at the behavior of pairs of geodesics or via geodesic deviation. Instead, one may investigate the evolution of geodesic congruences. In our work here, we obtain the evolution of the kinematic variables which characterize timelike geodesic congruences, using chosen pulse profiles (square and sech squared) in the exact, plane gravitational wave line element. We also analyze the behavior of geodesic congruences in possible physical scenarios describable using derivatives (first, second and third) of one of the chosen pulses. Beginning with a discussion on the generic behavior of such congruences and consequences thereof, we find exact analytical expressions for shear and expansion with the two chosen pulse profiles. Qualitatively similar numerical results are noted when various derivatives of the sech-squared pulse are used. We conclude that for geodesic congruences, a growth (or decay) of shear causes focusing of an initially parallel congruence, after the departure of the pulse. A correlation between the ``focusing time'' (or $u$ value, $u$ being the affine parameter) and the amplitude of the pulse (or its derivatives) is found. Such features distinctly suggest a memory effect, named in recent literature as $\mathcal{B}$ memory.

Topics & Concepts

Congruence relationGeodesicPlane (geometry)PhysicsMathematicsGeometryMathematical analysisPure mathematicsPulsars and Gravitational Waves ResearchBlack Holes and Theoretical PhysicsCosmology and Gravitation Theories
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