Instability thresholds for de Sitter and Minkowski spacetimes in holographic semiclassical gravity

Abstract

We study the stability of d-dimensional (d=3,4,5) de Sitter and Minkowski spacetimes within the framework of semiclassical gravity sourced by a strongly coupled quantum field with a gravity dual. Our stability results are derived from a careful analysis of the d-dimensional Lichnerowicz equation with mass-squared m2 and of semiclassical equations involving the dimensionless parameter γd. For d=3, we find that Minkowski spacetime is always unstable against perturbations, whereas de Sitter spacetime becomes stable when a dimensionless parameter γ3 exceeds a critical value. In d=4, both de Sitter and Minkowski spacetimes become unstable when the parameter γ4 exceeds its critical value. In contrast, in d=5, de Sitter and Minkowski spacetimes remain stable for almost all values of the parameter γ5, except for a regime in which higher-curvature corrections become comparable to the Einstein tensor.

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