The recent discovery of the A V3Sb5 (A= K, Rb, Cs) kagome superconductors launched a
growing field of research investigating the interplay between superconductivity and charge …

Electron correlations often lead to emergent orders in quantum materials, and one example
is the kagome lattice materials where topological states exist in the presence of strong …

Topological electronic flattened bands near or at the Fermi level are a promising route
towards unconventional superconductivity and correlated insulating states. However, the …

The recent discovery of the AV $ _3 $ Sb $ _5 $(A= K, Rb, Cs) kagome superconductors
launched a growing field of research investigating electronic instabilities in kagome metals …

Systems with flat bands are ideal for studying strongly correlated electronic states and
related phenomena. Among them, kagome-structured metals such as CoSn have been …

Honeycomb and kagome lattices exhibit extraordinary electronic properties. It is a natural
consequence of additional discrete degree of freedom associated with a valley or the …

As a two-dimensional structural motif, the kagome net produces many interesting magnetic
and electronic properties. In particular, this lattice produces flat electronic bands with a large …

Destructive interference between electron wavefunctions on the two-dimensional kagome
lattice induces an electronic flat band, which could host a variety of interesting quantum …

RhPb was initially recognized as one of CoSn-like compounds with P 6/mmm symmetry,
containing an ideal kagome lattice of d-block atoms. However, theoretical calculations …

Topological semimetals are a frontier of quantum materials. In multiband electronic systems,
topological band crossings can form closed curves, known as nodal lines. In the presence of …