Add to ORKGThe scope of this thesis is analyzing and characterizing certain gapless states in tight-binding non-Hermitian systems. We start by providing a pedagogical introduction to tight-binding theory, topological phases of matter, Wannier functions as real-space duals of Bloch functions and their properties, non-Hermitian systems and associated differences from standard Hermitian systems. Subsequently we show the possibility of extending pre-existing concepts of Hermitian quantum mechanics to non-Hermitian settings without losing predicting power over some peculiar observables. We conclude by providing numerical evidence for existence of certain topological states in finite one-dimensional and two-dimensional systems, also testing their robustness...
The energy bands of non-Hermitian systems exhibit nontrivial topological features that arise from th...
Abstract Non-Hermitian boundaries commonly take place in many open quantum systems locally coupled t...
Non-Hermitian (NH) Hamiltonians can be used to describe dissipative systems, notably including syste...
The scope of this thesis is analyzing and characterizing certain gapless states in tight-binding non...
The hallmark of symmetry-protected topological phases is the existence of anomalous boundary states,...
Recently, the search for topological states of matter has turned to non-Hermitian systems, which exh...
While Hermiticity lies at the heart of quantum mechanics, recent experimental advances in controllin...
A central topic in condensed matter research during the last decades has been the study and classifi...
The search of topological states in non-Hermitian systems has gained a strong momentum over the last...
Non-Hermiticity enriches topological phases beyond the existing Hermitian framework. Whereas their u...
We explore band structures of one-dimensional open systems described by periodic non-Hermitian opera...
The field of non-Hermitian Physics has attracted great attention over the last 23years, both from th...
Topological phases of Hermitian systems are known to exhibit intriguing properties such as the prese...
Motivated by recent progress on non-Hermitian topological band theories, we study the energy spectru...
We develop the topological band theory for systems described by non-Hermitian Hamiltonians, whose en...
The energy bands of non-Hermitian systems exhibit nontrivial topological features that arise from th...
Abstract Non-Hermitian boundaries commonly take place in many open quantum systems locally coupled t...
Non-Hermitian (NH) Hamiltonians can be used to describe dissipative systems, notably including syste...
The scope of this thesis is analyzing and characterizing certain gapless states in tight-binding non...
The hallmark of symmetry-protected topological phases is the existence of anomalous boundary states,...
Recently, the search for topological states of matter has turned to non-Hermitian systems, which exh...
While Hermiticity lies at the heart of quantum mechanics, recent experimental advances in controllin...
A central topic in condensed matter research during the last decades has been the study and classifi...
The search of topological states in non-Hermitian systems has gained a strong momentum over the last...
Non-Hermiticity enriches topological phases beyond the existing Hermitian framework. Whereas their u...
We explore band structures of one-dimensional open systems described by periodic non-Hermitian opera...
The field of non-Hermitian Physics has attracted great attention over the last 23years, both from th...
Topological phases of Hermitian systems are known to exhibit intriguing properties such as the prese...
Motivated by recent progress on non-Hermitian topological band theories, we study the energy spectru...
We develop the topological band theory for systems described by non-Hermitian Hamiltonians, whose en...
The energy bands of non-Hermitian systems exhibit nontrivial topological features that arise from th...
Abstract Non-Hermitian boundaries commonly take place in many open quantum systems locally coupled t...
Non-Hermitian (NH) Hamiltonians can be used to describe dissipative systems, notably including syste...