Add to ORKGElectronic flat bands in momentum space, arising from strong localization of electrons in real space, are an ideal stage to realize strongly-correlated phenomena. Theoretically, the flat bands can naturally arise in certain geometrically frustrated lattices, often with nontrivial topology if combined with spin-orbit coupling. Here, we report the observation of topological flat bands in frustrated kagome metal CoSn, using angle-resolved photoemission spectroscopy and band structure calculations. Throughout the entire Brillouin zone, the bandwidth of the flat band is suppressed by an order of magnitude compared to the Dirac bands originating from the same orbitals. The frustration-driven nature of the flat band is directly confirmed by the ch...
AbstractThe kagome lattice has long been regarded as a theoretical framework that connects lattice g...
Kagome lattices host flat bands due to their frustrated lattice geometry, which leads to destructive...
Crystal geometry can greatly influence the emergent properties of quantum materials. As an example, ...
The experimental realization of lattice-born flat bands with nontrivial topology has been elusive. H...
A kagome lattice of 3d transition metal ions is a versatile platform for correlated topological phas...
A kagome lattice of 3d transition metal ions is a versatile platform for correlated topological phas...
Kagome materials have emerged as a setting for emergent electronic phenomena that encompass differen...
The kagome lattice has long been regarded as a theoretical framework that connects lattice geometry ...
The direct observation of spin Berry curvature, an important aspect of non-trivial band topology, ha...
The direct observation of spin Berry curvature, an important aspect of non-trivial band topology, ha...
Electronic properties of kagome lattice have drawn great attention recently. In associate with flat-...
Kagome-nets, appearing in electronic, photonic and cold-atom systems, host frustrated fermionic and ...
Kagome-nets, appearing in electronic, photonic and cold-atom systems, host frustrated fermionic and ...
Among condensed matter systems, Mott insulators exhibit diverse properties that emerge from electron...
Due to the particularity of the lattice geometry, intriguing electronic characteristics of Dirac con...
AbstractThe kagome lattice has long been regarded as a theoretical framework that connects lattice g...
Kagome lattices host flat bands due to their frustrated lattice geometry, which leads to destructive...
Crystal geometry can greatly influence the emergent properties of quantum materials. As an example, ...
The experimental realization of lattice-born flat bands with nontrivial topology has been elusive. H...
A kagome lattice of 3d transition metal ions is a versatile platform for correlated topological phas...
A kagome lattice of 3d transition metal ions is a versatile platform for correlated topological phas...
Kagome materials have emerged as a setting for emergent electronic phenomena that encompass differen...
The kagome lattice has long been regarded as a theoretical framework that connects lattice geometry ...
The direct observation of spin Berry curvature, an important aspect of non-trivial band topology, ha...
The direct observation of spin Berry curvature, an important aspect of non-trivial band topology, ha...
Electronic properties of kagome lattice have drawn great attention recently. In associate with flat-...
Kagome-nets, appearing in electronic, photonic and cold-atom systems, host frustrated fermionic and ...
Kagome-nets, appearing in electronic, photonic and cold-atom systems, host frustrated fermionic and ...
Among condensed matter systems, Mott insulators exhibit diverse properties that emerge from electron...
Due to the particularity of the lattice geometry, intriguing electronic characteristics of Dirac con...
AbstractThe kagome lattice has long been regarded as a theoretical framework that connects lattice g...
Kagome lattices host flat bands due to their frustrated lattice geometry, which leads to destructive...
Crystal geometry can greatly influence the emergent properties of quantum materials. As an example, ...