Chiral flux phase in the Kagome superconductor AV3Sb5
Xilin Feng, Kun Jiang, Ziqiang Wang, Jiangping Hu
Abstract
is a chiral flux phase. Considering the symmetry of the Kagome lattice, we show that the chiral flux phase has the lowest energy among those states which exhibit 2×2 charge orders observed experimentally. This state breaks the time-reversal symmetry and displays anomalous Hall effect. The explicit pattern of the density of state in real space is calculated. These results are supported by recent experiments and suggest that these materials are new platforms to investigate the interplay between topology, superconductivity and electron-electron correlations.
Topics & Concepts
SuperconductivityCondensed matter physicsPhysicsCharge (physics)Symmetry (geometry)Phase (matter)Flux (metallurgy)Charge density waveMagnetic fluxSymmetry breakingGround stateChiral symmetryDensity of statesState (computer science)Charge densityQuantum mechanicsSpace (punctuation)Point reflectionT-symmetryParameter spaceDeconfinementPhase transitionFlux pinningFlux pumpingTopological Materials and PhenomenaOrganic and Molecular Conductors ResearchAdvanced Condensed Matter Physics