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Mechanism of exotic density-wave and beyond-Migdal unconventional superconductivity in kagome metal AV <sub>3</sub> Sb <sub>5</sub> (A = K, Rb, Cs)

Rina Tazai, Youichi Yamakawa, Seiichiro Onari, Hiroshi Kontani

2022Science Advances120 citationsDOIOpen Access PDF

Abstract

Exotic quantum phase transitions in metals, such as the electronic nematic state, have been discovered one after another and found to be universal now. The emergence of unconventional density-wave (DW) order in frustrated kagome metal AV 3 Sb 5 and its interplay with exotic superconductivity attract increasing attention. We find that the DW in kagome metal is the bond order, because the sizable intersite attraction is caused by the quantum interference among paramagnons. This mechanism is important in kagome metals because the geometrical frustration prohibits the freezing of paramagnons. In addition, we uncover that moderate bond-order fluctuations mediate sizable pairing glue, and this mechanism gives rise to both singlet s-wave and triplet p-wave superconductivity. Furthermore, characteristic pressure-induced phase transitions in CsV 3 Sb 5 are naturally understood by the present theory. Thus, both the exotic density wave and the superconductivity in geometrically frustrated kagome metals are explained by the quantum interference mechanism.

Topics & Concepts

SuperconductivityMechanism (biology)Condensed matter physicsMetalPhysicsMaterials scienceQuantum mechanicsMetallurgyAdvanced Condensed Matter PhysicsTopological Materials and PhenomenaRare-earth and actinide compounds