Evidence of two-dimensional flat band at the surface of antiferromagnetic kagome metal FeSn
The kagome lattice has long been regarded as a theoretical framework that connects lattice
geometry to unusual singularities in electronic structure. Transition metal kagome …
geometry to unusual singularities in electronic structure. Transition metal kagome …
Recent Progress on 2D Kagome Magnets: Binary TmSnn (T = Fe, Co, Mn)
Due to the particularity of the lattice geometry, intriguing electronic characteristics of Dirac
cone and flat band can coexist in the two‐dimensional (2D) kagome lattice. The 2D kagome …
cone and flat band can coexist in the two‐dimensional (2D) kagome lattice. The 2D kagome …
Kagome magnets: The emerging materials for spintronic memories
Recent developments in the field of topological quantum materials have stimulated the
search for materials that could serve as the building blocks for next-generation memory …
search for materials that could serve as the building blocks for next-generation memory …
Visualizing symmetry-breaking electronic orders in epitaxial Kagome magnet FeSn films
Kagome lattice hosts a plethora of quantum states arising from the interplay of topology, spin-
orbit coupling, and electron correlations. Here, we report symmetry-breaking electronic …
orbit coupling, and electron correlations. Here, we report symmetry-breaking electronic …
Intrinsic anomalous Hall effect in thin films of topological kagome ferromagnet Fe 3 Sn 2
Fe3Sn2, a kagome ferromagnet, is a potential quantum material with intriguing topological
features. Despite substantial experimental work on the bulk single crystals, the thin film …
features. Despite substantial experimental work on the bulk single crystals, the thin film …
Spin-polarized and possible pseudospin-polarized scanning tunneling microscopy in kagome metal FeSn
SH Lee, Y Kim, B Cho, J Park, MS Kim, K Park… - Communications …, 2022 - nature.com
A kagome lattice (KL) is a two-dimensional atomic network comprising hexagons
interspersed with triangles, which provides a fascinating platform for studying competing …
interspersed with triangles, which provides a fascinating platform for studying competing …
Reactivity of Ultrathin Kagome Metal FeSn toward Oxygen and Water
The kagome metal FeSn consists of alternating layers of kagome-lattice Fe3Sn and
honeycomb Sn2 and exhibits great potential for applications in future low-energy electronics …
honeycomb Sn2 and exhibits great potential for applications in future low-energy electronics …
Experimental Evidence for a Berry Curvature Quadrupole in an Antiferromagnet
Berry curvature multipoles appearing in topological quantum materials have recently
attracted much attention. Their presence can manifest in novel phenomena, such as …
attracted much attention. Their presence can manifest in novel phenomena, such as …
[HTML][HTML] Atomic layer epitaxy of kagome magnet Fe3Sn2 and Sn-modulated heterostructures
Magnetic materials with kagome crystal structure exhibit rich physics, such as frustrated
magnetism, skyrmion formation, topological flat bands, and Dirac/Weyl points. Until recently …
magnetism, skyrmion formation, topological flat bands, and Dirac/Weyl points. Until recently …
Synthesis of antiferromagnetic Weyl semimetal Mn3Ge on insulating substrates by electron beam assisted molecular beam epitaxy
The antiferromagnetic kagome semimetals Mn 3 X (X= Ge, Sn, Ga) are of great interest due
to properties arising from their Berry curvature, such as large anomalous Nernst and …
to properties arising from their Berry curvature, such as large anomalous Nernst and …