Litcius/Paper detail

Connecting boundary entropy and effective central charge at holographic interfaces

Evangelos Afxonidis, I. Carreño Bolla, Carlos Hoyos, Andreas Karch

2026Journal of High Energy Physics5 citationsDOIOpen Access PDF

Abstract

A bstract The entanglement entropy of intervals in 1 + 1 interface CFTs is modified in two ways compared to a CFT without interface: there is a finite boundary entropy contribution, and, for an interval with an endpoint at the interface, the coefficient of the logarithmically divergent contribution -which is usually proportional to the central charge of the CFT- is modified to an effective central charge. We show that the latter modification can be understood as a limit of the former using holographic duals of interface CFTs. Furthermore, we show that a finite “boundary entropy” contribution also appears in intervals that do not cross the interface and it is needed to ensure strong subbaditivity of the entanglement entropy.

Topics & Concepts

Central chargePhysicsQuantum entanglementDual polyhedronHolographyEntropy (arrow of time)Boundary value problemBoundary (topology)Quantum mechanicsCharge (physics)Anti-de Sitter spaceTheoretical physicsLimit (mathematics)Mathematical physicsQuantum electrodynamicsStatistical physicsInterface (matter)Critical phenomenaJoint quantum entropyBlack Holes and Theoretical PhysicsQuantum many-body systemsQuasicrystal Structures and Properties