Highly Anisotropic Charge Dynamics and Spectral Weight Redistribution in the Trilayer Nickelate La4Ni3O10
Abstract
We study the ab-plane and c-axis charge dynamics of La4Ni3O10 using optical spectroscopy. While a pronounced Drude profile, i.e. metallic response, is observed in the ab-plane optical conductivity σ1ab(ω), the c-axis optical spectra σ1c(ω) exhibit semiconducting behavior. The zero-frequency extrapolation of the optical conductivity σ1(ω → 0) 1/dc gives a resistivity anisotropy of c/ab 366 at 300~K for La4Ni3O10, which is much larger than the values in iron-based superconductors but comparable to those in high-Tc cuprates. The interband response is also highly anisotropic, showing salient orbital selectivity for light polarized in the ab plane and along the c axis. The interband-transition peaks in both σ1ab(ω) and σ1c(ω) are located at lower energies compared to density-functional-theory predictions, signifying considerable electronic correlations. By investigating the spectral weight transfer, we find that in the pristine phase, Coulomb correlations have a marked impact on the charge dynamics of , whereas in the density-wave state, a gap opens with the Ni-dz2 orbital being involved.
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