We develop the topological band theory for systems described by non-Hermitian Hamiltonians, whose energy spectra are generally complex. After generalizing the notion of gapped band structures to the non-Hermitian case, we classify “gapped” bands in one and two dimensions by explicitly finding their topological invariants. We find nontrivial generalizations of the Chern number in two dimensions, and a new classification in one dimension, whose topology is determined by the energy dispersion rather than the energy eigenstates. We then study the bulk-edge correspondence and the topological phase transition in two dimensions. Different from the Hermitian case, the transition generically involves an extended intermediate phase with complex-energ...
Topological phases are phases of matter that are characterized by discrete quantities known as topol...
A central topic in condensed matter research during the last decades has been the study and classifi...
The hallmark of symmetry-protected topological phases is the existence of anomalous boundary states,...
Motivated by recent progress on non-Hermitian topological band theories, we study the energy spectru...
We revisit the problem of classifying topological band structures in non-Hermitian systems. Recently...
Both theoretical and experimental studies of topological phases in non-Hermitian systems have made a...
While Hermiticity lies at the heart of quantum mechanics, recent experimental advances in controllin...
Topological insulators, superconductors and semi-metals are states of ma er with unique features suc...
The non-Hermitian skin effect, as a unique feature of non-Hermitian systems, will break the topologi...
The discovery of integer quantum Hall effect and its subsequent theoretical formulation heralded a n...
Recently, the search for topological states of matter has turned to non-Hermitian systems, which exh...
The non-Bloch band theory can describe energy bands in a one-dimensional (1D) non-Hermitian system. ...
We proposed a framework for the topological classification of non-Hermitian systems. Different from ...
Flat bands-dispersionless bands-have been actively studied thanks to their sensitivity to perturbati...
This paper provides a pedagogical introduction to recent developments in geometrical and topological...
Topological phases are phases of matter that are characterized by discrete quantities known as topol...
A central topic in condensed matter research during the last decades has been the study and classifi...
The hallmark of symmetry-protected topological phases is the existence of anomalous boundary states,...
Motivated by recent progress on non-Hermitian topological band theories, we study the energy spectru...
We revisit the problem of classifying topological band structures in non-Hermitian systems. Recently...
Both theoretical and experimental studies of topological phases in non-Hermitian systems have made a...
While Hermiticity lies at the heart of quantum mechanics, recent experimental advances in controllin...
Topological insulators, superconductors and semi-metals are states of ma er with unique features suc...
The non-Hermitian skin effect, as a unique feature of non-Hermitian systems, will break the topologi...
The discovery of integer quantum Hall effect and its subsequent theoretical formulation heralded a n...
Recently, the search for topological states of matter has turned to non-Hermitian systems, which exh...
The non-Bloch band theory can describe energy bands in a one-dimensional (1D) non-Hermitian system. ...
We proposed a framework for the topological classification of non-Hermitian systems. Different from ...
Flat bands-dispersionless bands-have been actively studied thanks to their sensitivity to perturbati...
This paper provides a pedagogical introduction to recent developments in geometrical and topological...
Topological phases are phases of matter that are characterized by discrete quantities known as topol...
A central topic in condensed matter research during the last decades has been the study and classifi...
The hallmark of symmetry-protected topological phases is the existence of anomalous boundary states,...