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Holographic Complexity Bounds

Published 23 Oct 2019 in hep-th and gr-qc | (1910.10723v2)

Abstract: We study the action growth rate in the Wheeler-DeWitt (WDW) patch for a variety of $D\ge 4$ black holes in Einstein gravity that are asymptotic to the anti-de Sitter spacetime, with spherical, toric and hyperbolic horizons, corresponding to the topological parameter $k=1,0,-1$ respectively. We find a lower bound inequality $\frac{1}{T} \frac{\partial \dot I_{\rm WDW}}{\partial S}|{Q,P{\rm th}}> C$ for $k=0,1$, where $C$ is some order-one numerical constant. The lowest number in our examples is $C=(D-3)/(D-2)$. We also find that the quantity $(\dot I_{\rm WDW}-2P_{\rm th}\, \Delta V_{\rm th})$ is greater than, equal to, or less than zero, for $k=1,0,-1$ respectively. For black holes with two horizons, $\Delta V_{\rm th}=V_{\rm th}+-V_{\rm th}-$, i.e. the difference between the thermodynamical volumes of the outer and inner horizons. For black holes with only one horizon, we introduce a new concept of the volume $V_{\rm th}0$ of the black hole singularity, and define $\Delta V_{\rm th}=V_{\rm th}+-V_{\rm th}0$. The volume $V_{\rm th}0$ vanishes for the Schwarzschild black hole, but in general it can be positive, negative or even divergent. For black holes with single horizon, we find a relation between $\dot I_{\rm WDW}$ and $V_{\rm th}0$, which implies that the holographic complexity preserves the Lloyd's bound for positive or vanishing $V_{\rm th}0$, but the bound is violated when $V_{\rm th}0$ becomes negative. We also find explicit black hole examples where $V_{\rm th}0$ and hence $\dot I_{\rm WDW}$ are divergent.

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