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Ultralocality and slow contraction

Anna Ijjas, Andrew P. Sullivan, Frans Pretorius, Paul J. Steinhardt, William G. Cook

2021Journal of Cosmology and Astroparticle Physics20 citationsDOIOpen Access PDF

Abstract

Abstract We study the detailed process by which slow contraction smooths and flattens the universe using an improved numerical relativity code that accepts initial conditions with non-perturbative deviations from homogeneity and isotropy along two independent spatial directions. Contrary to common descriptions of the early universe, we find that the geometry first rapidly converges to an inhomogeneous, spatially-curved and anisotropic ultralocal state in which all spatial gradient contributions to the equations of motion decrease as an exponential in time to negligible values. This is followed by a second stage in which the geometry converges to a homogeneous, spatially flat and isotropic spacetime. In particular, the decay appears to follow the same history whether the entire spacetime or only parts of it are smoothed by the end of slow contraction.

Topics & Concepts

PhysicsIsotropySpacetimeAnisotropyHomogeneity (statistics)General relativityClassical mechanicsContraction (grammar)GeometryTheory of relativitySpace timeDifferential geometryExponential functionNumerical relativityMechanicsEquations of motionInitial value problemTime evolutionHomogeneousProper timeUniverseCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsPulsars and Gravitational Waves Research
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