Entanglement Entropy in Quantum Gravity and the Plateau Problem

Abstract

In a quantum gravity theory the entropy of entanglement S between the fundamental degrees of freedom spatially divided by a surface is discussed. The classical gravity is considered as an emergent phenomenon and arguments are presented that: 1) S is a macroscopical quantity which can be determined without knowing a real microscopical content of the fundamental theory; 2) S is given by the Bekenstein-Hawking formula in terms of the area of a co-dimension 2 hypesurface B; 3) in static space-times B can be defined as a minimal hypersurface of a least volume separating the system in a constant time slice. It is shown that properties of S are in agreement with basic properties of the von Neumann entropy. Explicit variational formulae for S in different physical examples are considered.