A geometric proof of the equality between entanglement and edge spectra

TL;DR

This paper provides a geometric proof of the bulk-edge correspondence in topological quantum liquids, linking entanglement spectra to physical edge spectra using techniques from Lorentz and conformal field theories.

Contribution

It introduces a unified geometric proof of the bulk-edge correspondence applicable to various physical systems, connecting entanglement and edge spectra through advanced geometric methods.

Findings

Establishes a geometric proof of bulk-edge correspondence.

Demonstrates the connection between entanglement and edge spectra.

Applies techniques from black hole physics to quantum many-body systems.

Abstract

The bulk-edge correspondence for topological quantum liquids states that the spectrum of the reduced density matrix of a large subregion reproduces the thermal spectrum of a physical edge. This correspondence suggests an intricate connection between ground state entanglement and physical edge dynamics. We give a simple geometric proof of the bulk-edge correspondence for a wide variety of physical systems. Our unified proof relies on geometric techniques available in Lorentz invariant and conformally invariant quantum field theories. These methods were originally developed in part to understand the physics of black holes, and we now apply them to determine the local structure of entanglement in quantum many-body systems.