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Smoothing and flattening the universe through slow contraction versus inflation

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arxiv 2404.00867 v2 pith:H5VNDOQJ submitted 2024-04-01 gr-qc astro-ph.CO

Smoothing and flattening the universe through slow contraction versus inflation

classification gr-qc astro-ph.CO
keywords contractioninflationslowsmoothingnumericalbangbeginningclassical
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In a systematic study, we use an equivalent pair of improved numerical relativity codes based on a tetrad-formulation of the classical Einstein-scalar field equations to examine whether slow contraction or inflation (or both) can resolve the homogeneity, isotropy and flatness problems. Our finding, based on a set of gauge/frame invariant diagnostics, is that slow contraction robustly and rapidly smooths and flattens spacetime beginning from initial conditions that are outside the perturbative regime of the flat Friedmann-Robertson-Walker metric, whereas inflation fails these tests. We present new numerical evidence supporting the conjecture that the combination of ultralocal evolution and an effective equation-of-state with pressure much greater than energy density is the key to having robust and rapid smoothing. The opposite of ultralocality occurs in expanding spacetimes, which is the leading obstruction to smoothing following a big bang.

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Cited by 2 Pith papers

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    Refines two-field DHOST bouncing model to match observed f_NL and keep strong-coupling scale above background energy, claiming full viability at linear and non-linear levels.