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Nature of Unconventional Pairing in the Kagome Superconductors
Date Issued
22-10-2021
Author(s)
Wu, Xianxin
Schwemmer, Tilman
Müller, Tobias
Consiglio, Armando
Sangiovanni, Giorgio
Di Sante, Domenico
Indian Institute of Technology, Madras
Hanke, Werner
Schnyder, Andreas P.
Denner, M. Michael
Fischer, Mark H.
Neupert, Titus
Thomale, Ronny
Abstract
The recent discovery of () has uncovered an intriguing arena for exotic Fermi surface instabilities in a kagome metal. Among them, superconductivity is found in the vicinity of multiple van Hove singularities, exhibiting indications of unconventional pairing. We show that the sublattice interference mechanism is central to understanding the formation of superconductivity in a kagome metal. Starting from an appropriately chosen minimal tight-binding model with multiple van Hove singularities close to the Fermi level for , we provide a random phase approximation analysis of superconducting instabilities. Nonlocal Coulomb repulsion, the sublattice profile of the van Hove bands, and the interaction strength turn out to be the crucial parameters to determine the preferred pairing symmetry. Implications for potentially topological surface states are discussed, along with a proposal for additional measurements to pin down the nature of superconductivity in .
Volume
127