Generalized Non-Hermitian Skin Effect (2505.10252v2)

Abstract: In this Letter, we present a unified theory termed the generalized non-Hermitian skin effect. This framework provides a universal characterization of typical one-dimensional non-Hermitian skin effects within the perturbative regime and unveils a novel type of skin effect that beyond the predictions of the generalized Brillouin zone theory, referred to as the relative skin effect. Previously recognized skin effects are classified as global skin effects, thereby explicitly delineating the scope and limitations of existing non-Bloch band theories. Additionally, we establish, for the first time, a phase transition criterion between global skin effects and relative skin effect, demonstrating the competition between these two distinct types of skin effects, emphasizing the pivotal role of real-space non-Hermitian terms in understanding skin effects and challenging the traditional reliance of non-Bloch band theory on momentum space. Our study substantially advances the conceptual framework of non-Hermitian physics and provides new theoretical tools for investigation.