Add to ORKGKagome lattices host flat bands due to their frustrated lattice geometry, which leads to destructive quantum interference of electron wave functions. Here, we report imaging of the kagome flat band localization in real-space using scanning tunneling microscopy. We identify both the Fe3Sn kagome lattice layer and the Sn2 honeycomb layer with atomic resolution in kagome antiferromagnet FeSn. On the Fe3Sn lattice, at the flat band energy determined by the angle resolved photoemission spectroscopy, tunneling spectroscopy detects an unusual state localized uniquely at the Fe kagome lattice network. We further show that the vectorial in-plane magnetic field manipulates the spatial anisotropy of the localization state within each kagome unit cell....
Kagome metals are as an exciting playground for the explorations of novel phenomena at the intersect...
Kagome-lattice magnets $R$Mn$_6$Sn$_6$ recently emerged as a new platform to exploit the interplay b...
Kagome-lattice magnets $R$Mn$_6$Sn$_6$ recently emerged as a new platform to exploit the interplay b...
The kagome lattice has long been regarded as a theoretical framework that connects lattice geometry ...
AbstractThe kagome lattice has long been regarded as a theoretical framework that connects lattice g...
Among condensed matter systems, Mott insulators exhibit diverse properties that emerge from electron...
Topological materials hosting kagome lattices have drawn considerable attention due to the interplay...
Systems with flat bands are ideal for studying strongly correlated electronic states and related phe...
Electronic systems with flat bands are predicted to be a fertile ground for hosting emergent phenome...
Electronic systems with flat bands are predicted to be a fertile ground for hosting emergent phenome...
Kagome lattice hosts a plethora of quantum states arising from the interplay of topology, spin-orbit...
Due to the particularity of the lattice geometry, intriguing electronic characteristics of Dirac con...
The destructive interference of wavefunctions in a kagome lattice can give rise to topological flat ...
Materials with zero energy band gap display intriguing properties including high sensitivity of the ...
Electronic flat bands in momentum space, arising from strong localization of electrons in real space...
Kagome metals are as an exciting playground for the explorations of novel phenomena at the intersect...
Kagome-lattice magnets $R$Mn$_6$Sn$_6$ recently emerged as a new platform to exploit the interplay b...
Kagome-lattice magnets $R$Mn$_6$Sn$_6$ recently emerged as a new platform to exploit the interplay b...
The kagome lattice has long been regarded as a theoretical framework that connects lattice geometry ...
AbstractThe kagome lattice has long been regarded as a theoretical framework that connects lattice g...
Among condensed matter systems, Mott insulators exhibit diverse properties that emerge from electron...
Topological materials hosting kagome lattices have drawn considerable attention due to the interplay...
Systems with flat bands are ideal for studying strongly correlated electronic states and related phe...
Electronic systems with flat bands are predicted to be a fertile ground for hosting emergent phenome...
Electronic systems with flat bands are predicted to be a fertile ground for hosting emergent phenome...
Kagome lattice hosts a plethora of quantum states arising from the interplay of topology, spin-orbit...
Due to the particularity of the lattice geometry, intriguing electronic characteristics of Dirac con...
The destructive interference of wavefunctions in a kagome lattice can give rise to topological flat ...
Materials with zero energy band gap display intriguing properties including high sensitivity of the ...
Electronic flat bands in momentum space, arising from strong localization of electrons in real space...
Kagome metals are as an exciting playground for the explorations of novel phenomena at the intersect...
Kagome-lattice magnets $R$Mn$_6$Sn$_6$ recently emerged as a new platform to exploit the interplay b...
Kagome-lattice magnets $R$Mn$_6$Sn$_6$ recently emerged as a new platform to exploit the interplay b...