Critical non-Hermitian Skin Effect
Abstract
This work uncovers a new class of criticality where eigenenergies and eigenstates of non-Hermitian lattice systems jump discontinuously across a critical point in the thermodynamic limit, unlike established Hermitian and non-Hermitian critical scenarios where spectrum remains continuous across a transition. Such critical behavior, dubbed the "critical skin effect", is rather generic, occuring whenever subsystems with dissimilar non-Hermitian skin localization lengths are coupled, however weakly. Due to the existence of this criticality, the thermodynamic limit and the zero-coupling limit cannot be exchanged, thus challenging the celebrated generalized Brillouin zone (GBZ) approach when applied to finite-size systems. As manifestations of the critical skin effect in finite-size systems, we present stimulating examples with anomalous scaling behavior regarding spectrum, correlation functions, entanglement entropy, and scale-free wavefunctions that decay exponentially rather than power-law. More spectacularly, topological in-gap modes can even be induced by changing the system size.
Cite
@article{arxiv.2003.03039,
title = {Critical non-Hermitian Skin Effect},
author = {Linhu Li and Ching Hua Lee and Sen Mu and Jiangbin Gong},
journal= {arXiv preprint arXiv:2003.03039},
year = {2020}
}
Comments
4+ pages of main text (including 4 figures), plus 6 pages of Supplementary Material (including 7 figures)