Litcius/Paper detail

Quantum extremal islands made easy. Part III. Complexity on the brane

Juan Hernandez, Robert C. Myers, Shan-Ming Ruan

2021Journal of High Energy Physics109 citationsDOIOpen Access PDF

Abstract

A bstract We examine holographic complexity in the doubly holographic model introduced in [1, 2] to study quantum extremal islands. We focus on the holographic complexity=volume (CV) proposal for boundary subregions in the island phase. Exploiting the Fefferman-Graham expansion of the metric and other geometric quantities near the brane, we derive the leading contributions to the complexity and interpret these in terms of the generalized volume of the island derived from the induced higher-curvature gravity action on the brane. Motivated by these results, we propose a generalization of the CV proposal for higher curvature theories of gravity. Further, we provide two consistency checks of our proposal by studying Gauss-Bonnet gravity and f (ℛ) gravity in the bulk.

Topics & Concepts

PhysicsGeneralizationBoundary (topology)CurvatureQuantum gravityMetric (unit)BraneTheoretical physicsFocus (optics)Consistency (knowledge bases)Action (physics)HolographyQuantumLarge extra dimensionGravitationBrane cosmologyf(R) gravityLoop quantum gravityMathematical physicsEffective actionHolographic principleSurface (topology)Quantum entanglementEntropic gravityBoundary value problemQuantum mechanicsClassical mechanicsAnti-de Sitter spaceBlack Holes and Theoretical PhysicsGeometry and complex manifoldsNoncommutative and Quantum Gravity Theories