Superconductivity in layered nickelates
Harold Y. Hwang , Department of Applied Physics, Stanford University
Unconventional superconductivity in proximity to various strongly correlated electronic phases has been a recurring theme in materials as diverse as heavy fermion compounds, cuprates, pnictides, and twisted bilayer graphene. Here we will introduce a new and growing family of layered nickelate superconductors. The initial discovery of superconductivity in infinite-layer nickelates was motivated by looking for an electronic analog of the cuprates. Notable aspects are a doping-dependent superconducting dome, strong magnetic fluctuations, and a landscape of unusual normal state properties from which superconductivity emerges. The subsequent discovery of superconductivity in bulk La3Ni2O7 under high pressure is quite intriguing, in that the d-electron configuration is a priori quite different. Recently, we have used epitaxial strain in (La,Pr)3Ni2O7 thin films to stabilize superconductivity at ambient pressure, which is promising to extend their experimental study and development.
Host: Johnpierre Paglione
When: Tuesday, January 27, 2026 - 3:30pm
Where: 1410 Toll Physics Bldg.
REFRESHMENTS SERVED AT 3:00pm