Cluster algebraic description of entanglement patterns for the BTZ black hole

Abstract

We study the thermal state of a two dimensional conformal field theory which is dual to the static BTZ black hole in the high temperature limit. After partitioning the boundary of the static BTZ slice into N subsystems we show that there is an underlying CN-1 cluster algebra encoding entanglement patterns of the thermal state. We also demonstrate that the polytope encapsulating such patterns in a geometric manner for a fixed N is the cyclohedron CN-1. Alternatively these patterns of entanglement can be represented in the space of geodesics (kinematic space) in terms of a Zamolodchikov Y-system of CN-1 type. The boundary condition for such an Y-system is featuring the entropy of the BTZ black hole.