Probing non-Hermitian Skin Effect and non-Bloch Phase Transitions

TL;DR

This paper demonstrates that the Lyapunov exponent derived from bulk wave dynamics can detect non-Bloch phase transitions and the non-Hermitian skin effect in non-Hermitian systems, extending understanding beyond edge-probing methods.

Contribution

It introduces a bulk wave dynamics approach using Lyapunov exponents to identify non-Hermitian phenomena, bypassing edge-based measurements.

Findings

Lyapunov exponent signals non-Bloch phase transitions

Bulk wave dynamics reveal non-Hermitian skin effect

Method applicable to systems with open boundaries

Abstract

In non-Hermitian crystals showing the non-Hermitian skin effect, ordinary Bloch band theory and Bloch topological invariants fail to correctly predict energy spectra, topological boundary states, and symmetry breaking phase transitions in systems with open boundaries. Recently, it has been shown that a correct description requires to extend Bloch band theory into complex plane. A still open question is whether non-Hermitian skin effect and non-Bloch symmetry-breaking phase transitions can be probed by real-space wave dynamics far from edges, which is entirely governed by ordinary Bloch bands. Here it is shown that the Lyapunov exponent in the long-time behavior of bulk wave dynamics can reveal rather generally non-Bloch symmetry breaking phase transitions and the existence of the non-Hermitian skin effect.