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Properties of the non-Hermitian SSH model: role of symmetry

Dipendu Halder, Sudin Ganguly, Saurabh Basu

2022Journal of Physics Condensed Matter40 citationsDOI

Abstract

The present work addresses the distinction between the topological properties ofPTsymmetric and non-PTsymmetric scenarios for the non-Hermitian Su-Schrieffer-Heeger model. The non-PTsymmetric case is represented by non-reciprocity in both the inter- and the intra-cell hopping amplitudes, while the one withPTsymmetry is modeled by a complex on-site staggered potential. In particular, we study the loci of the exceptional points, the winding numbers, band structures, and explore the breakdown of bulk-boundary correspondence (BBC). We further study the interplay of the dimerization strengths on the observables for these cases. The non-PTsymmetric case denotes a more familiar situation, where the winding number abruptly changes by half-integer through tuning of the non-reciprocity parameters, and demonstrates a complete breakdown of BBC, thereby showing non-Hermitian skin effect. The topological nature of thePTsymmetric case appears to follow closely to its Hermitian analogue, except that it shows unbroken (broken) regions with complex (purely real) energy spectra, while another variant of the winding number exhibits a continuous behavior as a function of the strength of the potential, while the conventional BBC is preserved.

Topics & Concepts

Hermitian matrixReciprocity (cultural anthropology)ObservablePhysicsWinding numberSymmetry (geometry)Boundary (topology)Function (biology)Topology (electrical circuits)Spectral lineTheoretical physicsQuantum mechanicsMathematicsMathematical analysisCombinatoricsGeometrySocial psychologyPsychologyBiologyEvolutionary biologyQuantum Mechanics and Non-Hermitian PhysicsTopological Materials and PhenomenaQuantum, superfluid, helium dynamics
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