Date/Time
Date(s) - 22/09/2021
3:30 pm - 4:30 pm

Dr. Stephen D. Wilson – University of California

Wednesday, September 22, 2021 15:30 – 16:30

Description: AV₃Sb₅ (A=K, Rb, Cs):  A new class of topological kagome metals with superconducting and charge density wave instabilities 

Title: Kagome metals are compelling materials platforms for hosting electronic states that feature an interplay between topologically nontrivial electronic states and correlated electron phenomena. These two features can, for instance, arise from the Dirac points, flatbands, and saddle-points endemic to the kagome lattice type in simple tight-binding models. Recently in this field, the discovery of a new class of kagome metals of the form AV₃Sb₅ with A=K, Cs, or Rb has provided a unique setting for exploring the interplay between Z₂ electronic topology and intertwined charge density wave and superconducting orders. These metals realize a kagome lattice of nonmagnetic vanadium ions with an electron-filling that populates saddle-points and their corresponding van Hove singularities in the electronic density of states near the Fermi level. Nesting effects in this setting are predicted to stabilize a variety of unusual states, ranging from charge density wave order that breaks time reversal symmetry to unconventional superconductivity. Here I will present some of our recent work exploring the phase transitions and broken symmetries in these materials. Particular attention will be given to the nature of the charge density wave instability

Speaker: Dr. Stephen D. Wilson
https://www.materials.ucsb.edu/people/faculty/stephen-wilson

Institution: University of California, Santa Barbara

Location: Zoom

Host: Dr. Sung-Sik Lee