Litcius/Paper detail

Robustness of slow contraction to cosmic initial conditions

Ijjas, A., Cook, W., Pretorius, F., Steinhardt, P., Davies, E.

2020MPG.PuRe (Max Planck Society)28 citationsOpen Access PDF

Abstract

We present numerical relativity simulations of cosmological scenarios in which the universe is smoothed and flattened by undergoing a phase of slow contraction and test their sensitivity to a wide range of initial conditions. Our numerical scheme enables the variation of all freely specifiable physical quantities that characterize the initial spatial hypersurface, such as the initial shear and spatial curvature contributions as well as the initial field and velocity distributions of the scalar that drives the cosmological evolution. In particular, we include initial conditions that are far outside the perturbative regime of the well-known attractor scaling solution. We complement our numerical results by analytically performing a complete dynamical systems analysis and show that the two approaches yield consistent results.

Topics & Concepts

PhysicsAttractorHypersurfaceEkpyrotic universeCurvatureSpacetimeScalingNumerical relativityGeneral relativityClassical mechanicsStatistical physicsCosmologyContraction (grammar)Phase spaceMetric expansion of spaceAstrophysicsDark energyMathematical analysisQuantum mechanicsGeometryInternal medicineMedicineMathematicsCosmology and Gravitation TheoriesGalaxies: Formation, Evolution, PhenomenaBlack Holes and Theoretical Physics