Kagome lattices are intriguing and rich platforms for studying the intertwining of topology,
electron correlation, and magnetism. These materials have been subject to tremendous …

Abstracts In solid materials, non-trivial topological states, electron correlations and
magnetism are central ingredients for realizing quantum properties, including …

The recently discovered vanadium-based kagome metals AV 3 Sb 5 (A= K, Rb, Cs) exhibit
superconductivity at low temperatures and charge density wave (CDW) order at high …

The kagome metal CsV3Sb5 features an unusual competition between the charge-density-
wave (CDW) order and superconductivity. Evidence for time reversal symmetry breaking …

The flux quantization is a key indication of electron pairing in superconductors. For example,
the well-known h/2 e flux quantization is considered strong evidence for the existence of …

Abstract Kagome metals AV3Sb5 (A= K, Cs, Rb) provide a rich platform for intertwined
orders, where evidence for time-reversal symmetry breaking, likely due to the long-sought …

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 …

FeGe is a kagome material that exhibits both charge density wave (CDW) order and
magnetic order. The CDW order is developed deep inside the A-type antiferromagnetic …

The breaking of time-reversal symmetry (TRS) in the normal state of kagome
superconductors A V3Sb5 stands out as a significant feature, but its tunability is unexplored …

We theoretically study the charge order and orbital magnetic properties of a new type of
antiferromagnetic kagome metal FeGe. Based on first-principles density functional theory …