Quantized electric multipole insulators
TLDR
This work introduces a paradigm in which “nested” Wilson loops give rise to topological invariants that have been overlooked and opens a venue for the expansion of the classification of topological phases of matter.Abstract:
The Berry phase provides a modern formulation of electric polarization in crystals. We extend this concept to higher electric multipole moments and determine the necessary conditions and minimal models for which the quadrupole and octupole moments are topologically quantized electromagnetic observables. Such systems exhibit gapped boundaries that are themselves lower-dimensional topological phases. Furthermore, they host topologically protected corner states carrying fractional charge, exhibiting fractionalization at the boundary of the boundary. To characterize these insulating phases of matter, we introduce a paradigm in which “nested” Wilson loops give rise to topological invariants that have been overlooked. We propose three realistic experimental implementations of this topological behavior that can be immediately tested. Our work opens a venue for the expansion of the classification of topological phases of matter.read more
Citations
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Trapped fractional charges at bulk defects in topological insulators.
TL;DR: In this paper, the authors show that disclination defects can robustly trap fractional charges in TCI metamaterials, and show that this trapped charge can indicate non-trivial, higher-order crystalline topology even in the absence of any spectral signatures.
Electric multipole moments and higher-order topological phases in crystalline insulators and superconductors
TL;DR: In this article, the theory of symmetry-protected topological phases (SPTs) was extended to topological superconductors, and the existence of Majorana bound states (MBS) trapped at topological defects was investigated.
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Flat bands and higher-order topology in polymerized triptycene: Tight-binding analysis on decorated star lattices
TL;DR: In this paper, the authors theoretically investigate the tight-binding models for polymerized triptycene, focusing on the origin of flat bands and the topological properties, and propose two methods to realize the second-order topological insulator.
Journal ArticleDOI
Higher-Order Topological Spin Hall Effect of Sound
TL;DR: In this article, a reconfigurable 2D hexagonal sonic crystal with higher-order topology protected by the sixfold, $C_6), rotation symmetry is proposed. But the topology is not considered in this paper.
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Twisted quadrupole topological photonic crystals
TL;DR: In this article, the twisting-induced crystalline symmetry enriches the Wannier polarizations and leads to the anomalous quadrupole topology, triggered by a twisting degree-of-freedom.
References
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TL;DR: A two-dimensional condensed-matter lattice model is presented which exhibits a nonzero quantization of the Hall conductance in the absence of an external magnetic field, and exhibits the so-called "parity anomaly" of (2+1)-dimensional field theories.
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Maximally localized generalized Wannier functions for composite energy bands
Nicola Marzari,David Vanderbilt +1 more
TL;DR: In this paper, a method for determining the optimally localized set of generalized Wannier functions associated with a set of Bloch bands in a crystalline solid is presented, which is suitable for use in connection with conventional electronic-structure codes.
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Theory of polarization of crystalline solids
TL;DR: It is shown that physically $\ensuremath{\Delta}P can be interpreted as a displacement of the center of charge of the Wannier functions.
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