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Literature DB >> 32302191

Stable Flatbands, Topology, and Superconductivity of Magic Honeycomb Networks.

Jongjun M Lee¹, Chenhua Geng², Jae Whan Park³, Masaki Oshikawa², Sung-Sik Lee^4,5, Han Woong Yeom^1,3, Gil Young Cho¹.

Abstract

We propose a new principle to realize flatbands which are robust in real materials, based on a network superstructure of one-dimensional segments. This mechanism is naturally realized in the nearly commensurate charge-density wave of 1T-TaS_{2} with the honeycomb network of conducting domain walls, and the resulting flatband can naturally explain the enhanced superconductivity. We also show that corner states, which are a hallmark of the higher-order topological insulators, appear in the network superstructure.

Entities: Chemical Species

Year: 2020 PMID： 32302191 DOI： 10.1103/PhysRevLett.124.137002

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

2 in total

1. Quantum distance and anomalous Landau levels of flat bands.

Authors: Jun-Won Rhim; Kyoo Kim; Bohm-Jung Yang
Journal: Nature Date: 2020-08-05 Impact factor: 49.962

2. Novel transport properties of the α-T₃ lattice with uniform electric and magnetic fields.

Authors: Fu Li; Qingtian Zhang; Kwok Sum Chan
Journal: Sci Rep Date: 2022-07-29 Impact factor: 4.996

2 in total

Stable Flatbands, Topology, and Superconductivity of Magic Honeycomb Networks.

1. Quantum distance and anomalous Landau levels of flat bands.

2. Novel transport properties of the α-T3 lattice with uniform electric and magnetic fields.

2. Novel transport properties of the α-T₃ lattice with uniform electric and magnetic fields.