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Momentum/Complexity duality and the black hole interior

José L.F. Barbón, Javier Martín-García, Martin Sasieta

2020Journal of High Energy Physics25 citationsDOIOpen Access PDF

Abstract

A bstract We establish a version of the Momentum/Complexity (PC) duality between the rate of operator complexity growth and an appropriately defined radial component of bulk momentum for a test system falling into a black hole. In systems of finite entropy, our map remains valid for arbitrarily late times after scrambling. The asymptotic regime of linear complexity growth is associated to a frozen momentum in the interior of the black hole, measured with respect to a time foliation by extremal codimension-one surfaces which saturate without reaching the singularity. The detailed analysis in this paper uses the Volume-Complexity (VC) prescription and an infalling system consisting of a thin shell of dust, but the final PC duality formula should have a much wider degree of generality.

Topics & Concepts

PhysicsDuality (order theory)Black hole (networking)Extremal black holeAngular momentumBlack braneOperator (biology)Mathematical physicsFoliation (geology)Momentum (technical analysis)Rotating black holeCharged black holeTheoretical physicsDegree (music)Shell (structure)Stability (learning theory)White holeClassical mechanicsBlack hole thermodynamicsFalling (accident)Component (thermodynamics)Black Holes and Theoretical PhysicsAstrophysical Phenomena and ObservationsHigh-Energy Particle Collisions Research
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