Coexistence of superconductivity and magnetic order in a kagome lattice material

The intertwining of superconductivity, magnetism, and non-trivial topology is at the frontier of condensed matter physics. Kagome lattices have attracted research interest due to their potential for hosting a quantum spin liquid. Recently, it was demonstrated that they can possibly host both topologically protected bands and non-dispersing or flat bands. Ru atoms form a kagome lattice perpendicular to the [111] direction in CeRu₂. Our density-functional theory (DFT) calculations also revealed a kagome flat band near the Fermi surface. At ambient pressure, CeRu₂ shows a sharp superconducting transition at ~ 5 K based on resistivity measurements, as well as a weak magnetic order at temperatures up to ~ 40 K. A systematic investigation was performed to study the superconductivity and magnetic order in CeRu₂ under pressure via both magnetic and resistivity measurements. An unusual magnetic phase diagram that suggests an intriguing interplay between its superconducting order parameters has been constructed. A T_c resurgence was detected under pressure above ~ 30 GPa. Detailed results will be presented and discussed.