http://arxiv.org/abs/2101.07368
The measured cosmological constant $\Lambda$ is usually interpreted as Dark Energy (DE) or modified gravity (MG). Here we propose instead that $\Lambda$ corresponds to a boundary term in the action of classical General Relativity. The action is zero for a perfect fluid solution and this fixes $\Lambda$ to the average density $\rho$ and pressure $p$ inside a primordial causal boundary set by inflation: $\Lambda = 4\pi G <\rho+3p>$. This explains both why the observed value of $\Lambda$ is related to the matter density today and also why other contributions to $\Lambda$, such as DE or MG, do not produce cosmic expansion. Cosmic acceleration results from the repulsive boundary force that occurs when the expansion reaches the causal horizon. This universe is similar to the $\Lambda$CDM universe, except on the largest observable scales, where we expect departures from homogeneity/isotropy, such as variations in cosmological parameters indicated by recent observations.
E. Gaztanaga
Wed, 20 Jan 21
4/61
Comments: MNRAS in press
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