Avoiding recollapse in an open-AdS Universe via a self-tuning-like mechanism
Abstract
We study whether an open FLRW Universe with a negative cosmological constant can evade the eventual recollapse characteristic of AdS-type Universe. Within a power-law realization of Fab-Four theory, we solve the background equations numerically and analyze the asymptotic dynamics. We find that the scalar sector provides a self-tuning-like compensation of the negative while leaving the spatial-curvature term unscreened. Consequently, the expansion does not reverse. Instead, the Universe evolves toward a curvature-dominated linear-expansion regime, a t. To probe the underlying compensation mechanism, we further analyze an auxiliary zero-curvature subsystem using Poincar\'e compactification. The physically admissible trajectories approach a critical point at infinity where the compensating scalar- sector becomes stiff-like (wφ+ 1), so that its effective energy density redshifts faster than curvature (wk = -1/3). Although this auxiliary analysis does not cover the full curved cosmology, it is consistent with and qualitatively supports the numerical finding that the net φ + contribution becomes subdominant to curvature, thereby preventing recollapse despite < 0. This extends the application of the self-tuning mechanism to the AdS region and offers a possibility for the AdS Universe predicted by string theory to become a reality.
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