Homotopical characterization of non-Hermitian band structures
Zhi Li, Roger S. K. Mong
Abstract
We proposed a framework for the topological characterization of non-Hermitian band structures. Different from previous $K$-theoretical approaches, our approach is homotopical, which enables us to see more topological invariants. Specifically, we considered the classification of non-Hermitian systems with separable band structures. We found that the whole classification set is decomposed into several sectors, based on the braiding of energy levels. Each sector can be further classified based on the topology of eigenstates (wave functions). Due to the interplay between energy levels braiding and eigenstates topology, we found some torsion invariants, which only appear in the non-Hermitian world via homotopical approach. We further proved that these new topological invariants are unstable, in the sense that adding more bands will trivialize these invariants.