Topological Phases of Non-Hermitian Systems
Zongping Gong,Yuto Ashida,Kohei Kawabata,Kazuaki Takasan,Sho Higashikawa,Masahito Ueda,Masahito Ueda +6 more
TLDR
In this paper, a coherent framework of topological phases of non-Hermitian Hamiltonians was developed, and the K-theory was applied to systematically classify all the topology phases in the Altland-Zirnbauer classes in all dimensions.Abstract:
Recent experimental advances in controlling dissipation have brought about unprecedented flexibility in engineering non-Hermitian Hamiltonians in open classical and quantum systems. A particular interest centers on the topological properties of non-Hermitian systems, which exhibit unique phases with no Hermitian counterparts. However, no systematic understanding in analogy with the periodic table of topological insulators and superconductors has been achieved. In this paper, we develop a coherent framework of topological phases of non-Hermitian systems. After elucidating the physical meaning and the mathematical definition of non-Hermitian topological phases, we start with one-dimensional lattices, which exhibit topological phases with no Hermitian counterparts and are found to be characterized by an integer topological winding number even with no symmetry constraint, reminiscent of the quantum Hall insulator in Hermitian systems. A system with a nonzero winding number, which is experimentally measurable from the wave-packet dynamics, is shown to be robust against disorder, a phenomenon observed in the Hatano-Nelson model with asymmetric hopping amplitudes. We also unveil a novel bulk-edge correspondence that features an infinite number of (quasi-)edge modes. We then apply the K-theory to systematically classify all the non-Hermitian topological phases in the Altland-Zirnbauer classes in all dimensions. The obtained periodic table unifies time-reversal and particle-hole symmetries, leading to highly nontrivial predictions such as the absence of non-Hermitian topological phases in two dimensions. We provide concrete examples for all the nontrivial non-Hermitian AZ classes in zero and one dimensions. In particular, we identify a Z2 topological index for arbitrary quantum channels. Our work lays the cornerstone for a unified understanding of the role of topology in non-Hermitian systems.read more
Citations
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Exceptional points in optics and photonics.
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Exceptional topology of non-Hermitian systems
TL;DR: In this paper, the role of topology in non-Hermitian (NH) systems and its far-reaching physical consequences observable in a range of dissipative settings are reviewed.
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Anatomy of skin modes and topology in non-Hermitian systems
TL;DR: In this paper, the authors derive a geometrical approach for the exact determination of the skin-mode spectrum of non-Hermitian particle-hole symmetric Hamiltonians based on complex analysis.
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Generalized bulk–boundary correspondence in non-Hermitian topolectrical circuits
Tobias Helbig,Tobias Hofmann,Stefan Imhof,M. AbdelGhany,Tobias Kiessling,Laurens W. Molenkamp,Ching Hua Lee,Alexander Szameit,Martin Greiter,Ronny Thomale +9 more
TL;DR: In this paper, a non-Hermitian skin effect was observed in a topolectric circuit with respect to the presence of a boundary, and the voltage signal accumulates at the left or right boundary and increases as a function of nodal distance to the current feed.
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Non-Hermitian Boundary Modes and Topology
TL;DR: This work exposes a direct relation between the presence of a point gap invariant and the appearance of skin modes when this gap is trivialized by an edge, and can expose novel non-Hermitian topological regimes beyond the reach of previous methods.
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