Multiband Metallic Ground State in Multilayered Nickelates La3Ni2O7 and La4Ni3O10 Probed by 139La-NMR at Ambient Pressure
Abstract
We report a 139La-NMR study of polycrystalline samples of multi(n)-layered nickelates, La3Ni2O7-δ (n=2) and La4Ni3O10-δ (n=3), at ambient pressure. Measurements of the nuclear magnetic resonance (NMR) spectra and nuclear spin relaxation rate (1/T1) indicate the emergence of a density wave order with a gap below T*150 K for La3Ni2O7-δ and 130 K for La4Ni3O10-δ. The finite value of 1/T1 below T* indicates metallic ground states with the remaining density of states at the Fermi level (E F) under the density wave order. These features are attributed to multiple d electron bands with different characteristics. Above T*, the gradual decrease in 1/T1T upon cooling implies the presence of a band with flat dispersion near E F. From our microscopic probes, we point out that these nickelates (n=2 and 3) possess similar electronic states despite the difference in the formal valence of the Ni-d electron states, which provides a basis for understanding the novel high-T c superconductivity under high pressures.
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