Exposing nontrivial flat bands and superconducting pairing in infinite-layer nickelates
Abstract
Flat bands coupled with magnetism and topological orders near or at the Fermi level are well known to drive exotic correlation physics and unconventional superconductivity. Here, based on first-principles modeling combined with an in-depth symmetry analysis, we reveal the presence of topological flat bands involving low-energy Ni-3dz2 states in the recently discovered superconductor LaNiO2. Our analysis demonstrates that LaNiO2 is an Axion insulator with Z4 = 2 and that it supports topological crystalline insulating states protected by the glide mirror symmetries. The topological flat bands in LaNiO2 are also shown to host odd-parity superconductivity. Our study indicates that the nickelates would provide an interesting materials platform for exploring the interplay of flat bands, topological states, and superconductivity.
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