Local spectroscopic evidence for a nodeless magnetic kagome superconductor CeRu$_2$

“…Because of the unique lattice geometry and unusual electronic features in a kagome lattice [1][2][3]23 , the recently discovered kagome superconductors stand out as a new platform for inspecting the superconductivity emerging from a complex landscape of electronic orders 4,5,24,25 . Of particular interest is the nonmagnetic family of AV3Sb5 (A = K, Rb, Cs) 4,6 , in which a variety of intriguing phenomena have been uncovered, including a tantalizing time-reversal symmetry broken charge density wave (CDW) order 7,8,26,27 , a pair density wave 9 , electronic nematicity 8,28-30 ,…”

“…Their interdependence has been widely studied in cuprate and iron-based superconductors 19,20 , while persists as a key issue for understanding the high temperature superconductivity. In certain cases, the ordered state and superconductivity can even coexist 21,22 , which may indicate an unconventional pairing and have a dramatic impact on the superconducting mechanism.Because of the unique lattice geometry and unusual electronic features in a kagome lattice [1][2][3]23 , the recently discovered kagome superconductors stand out as a new platform for inspecting the superconductivity emerging from a complex landscape of electronic orders 4,5,24,25 . Of particular interest is the nonmagnetic family of AV3Sb5 (A = K, Rb, Cs) 4,6 , in which a variety of intriguing phenomena have been uncovered, including a tantalizing time-reversal symmetry broken charge density wave (CDW) order 7,8,26,27 , a pair density wave 9 , electronic nematicity 8,28-30 ,…”

Nodeless electron pairing in CsV3Sb5-derived kagome superconductors

“…Because of the unique lattice geometry and unusual electronic features in a kagome lattice [1][2][3]23 , the recently discovered kagome superconductors stand out as a new platform for inspecting the superconductivity emerging from a complex landscape of electronic orders 4,5,24,25 . Of particular interest is the nonmagnetic family of AV3Sb5 (A = K, Rb, Cs) 4,6 , in which a variety of intriguing phenomena have been uncovered, including a tantalizing time-reversal symmetry broken charge density wave (CDW) order 7,8,26,27 , a pair density wave 9 , electronic nematicity 8,28-30 ,…”

“…Their interdependence has been widely studied in cuprate and iron-based superconductors 19,20 , while persists as a key issue for understanding the high temperature superconductivity. In certain cases, the ordered state and superconductivity can even coexist 21,22 , which may indicate an unconventional pairing and have a dramatic impact on the superconducting mechanism.Because of the unique lattice geometry and unusual electronic features in a kagome lattice [1][2][3]23 , the recently discovered kagome superconductors stand out as a new platform for inspecting the superconductivity emerging from a complex landscape of electronic orders 4,5,24,25 . Of particular interest is the nonmagnetic family of AV3Sb5 (A = K, Rb, Cs) 4,6 , in which a variety of intriguing phenomena have been uncovered, including a tantalizing time-reversal symmetry broken charge density wave (CDW) order 7,8,26,27 , a pair density wave 9 , electronic nematicity 8,28-30 ,…”

Nodeless electron pairing in CsV3Sb5-derived kagome superconductors

“…Because of the unique lattice geometry and unusual electronic features in a kagome lattice [1][2][3]23 , the recently discovered kagome superconductors stand out as a new platform for inspecting the superconductivity emerging from a complex landscape of electronic orders 4,5,24,25 . Of particular interest is the nonmagnetic family of AV3Sb5 (A = K, Rb, Cs) 4,6 , in which a variety of intriguing phenomena have been uncovered, including a tantalizing time-reversal symmetry broken charge density wave (CDW) order 7,8,26,27 , a pair density wave 9 , electronic nematicity 8,28-30 ,…”

“…Their interdependence has been widely studied in cuprate and iron-based superconductors 19,20 , while persists as a key issue for understanding the high temperature superconductivity. In certain cases, the ordered state and superconductivity can even coexist 21,22 , which may indicate an unconventional pairing and have a dramatic impact on the superconducting mechanism.Because of the unique lattice geometry and unusual electronic features in a kagome lattice [1][2][3]23 , the recently discovered kagome superconductors stand out as a new platform for inspecting the superconductivity emerging from a complex landscape of electronic orders 4,5,24,25 . Of particular interest is the nonmagnetic family of AV3Sb5 (A = K, Rb, Cs) 4,6 , in which a variety of intriguing phenomena have been uncovered, including a tantalizing time-reversal symmetry broken charge density wave (CDW) order 7,8,26,27 , a pair density wave 9 , electronic nematicity 8,28-30 ,…”

Nodeless electron pairing in CsV3Sb5-derived kagome superconductors