Progress of ambient-pressure superconductivity in bilayer nickelate thin films

Abstract

This review summarizes recent progress of ambient-pressure superconductivity in bilayer nickelate La3Ni2O7 thin films, a major advancement following the discovery of high-pressure superconductivity in bulk La3Ni2O7. First, we explain how epitaxial strain engineering enables ambient-pressure superconductivity in La3Ni2O7 thin films, with compressive strain from substrates like SrLaAlO4 stabilizing superconductivity. Next, we review experimental characterizations of related systems, with particular emphasis on ARPES measurements that have shown conflicting Fermi surface topologies. We then discuss progress in increasing the superconducting transition temperature Tc. Finally, we summarize theoretical studies of the electronic structure and pairing symmetry of La3Ni2O7 thin films. Together, these advances establish bilayer nickelate thin films as a highly tunable and promising platform for exploring high-Tc superconductivity.