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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Second-order topological corner states in zigzag graphene nanoflake with different types of edge magnetic configurations
TL;DR: In this paper , the energy spectrum and energy levels of the extended Kane-Mele model with magnetic atoms on their zigzag edges were studied and it was demonstrated that the edges of ferromagnetic or antiferromagnetism are enough to break the time-reversal symmetry and host one-dimensional gapped edge states.
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Single branch of chiral Majorana modes from doubly degenerate Fermi surfaces
Wang Yang,Chao Xu,Congjun Wu +2 more
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Large shift current, π Zak phase, and the unconventional nature of Se and Te
TL;DR: In this paper, the trigonal selenium and tellurium host an unconventional nature in both electronic and phonon spectra, and the obstructed phonon states are predicted on the (0001) surface.
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Three-dimensional Dirac semimetal metamaterial enabled by negative couplings
TL;DR: In this paper , an acoustic metamaterial with Dirac points was constructed by designing the sign of coupling terms, specifically incorporating negative couplings, and the transition from 3D Dirac point to Weyl points was obtained by tuning the coupling parameter along longitudinal direction.
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Coexistence of Strong and Weak Topological Orders in a Quasi-One-Dimensional Material.
Deyang Wang,Qi Jiang,Kenta Kuroda,Kaishu Kawaguchi,Ayumi Harasawa,Koichiro Yaji,Arthur Ernst,H. Qian,Wenjie Liu,Heming Zha,Zhicheng Jiang,Ni Ma,Hong-Ping Mei,A. H. Li,Takeshi Kondo,Shan Qiao,Mao Ye +16 more
TL;DR: In this article , the coexistence of the strong and weak topological phases in a quasi-one-dimensional material, TaNiTe, was revealed by spin and angle resolved photoemission spectroscopy.
References
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New Method for High-Accuracy Determination of the Fine-Structure Constant Based on Quantized Hall Resistance
TL;DR: In this article, the Hall voltage of a two-dimensional electron gas, realized with a silicon metal-oxide-semiconductor field effect transistor, was measured and it was shown that the Hall resistance at particular, experimentally well-defined surface carrier concentrations has fixed values which depend only on the fine-structure constant and speed of light, and is insensitive to the geometry of the device.
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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
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