Contrasting Spin Excitations in Octahedral and Square-Planar n=8 Ruddlesden-Popper Nickelates
Abstract
The discovery of superconductivity in reduced square-planar nickelates marked a major advance in identifying structural and electronic analogs to the high-Tc cuprates. The more recent observation of superconductivity in parent Ruddlesden-Popper (RP) octahedral nickelates with a clear difference in electron count with respect to cuprates raises new questions about the nature of superconductivity across these related but distinct nickelate families. Here, we use Ni L3-edge resonant inelastic x-ray scattering (RIXS) to probe the low-energy excitations in a representative compound of both families: the parent octahedral n=8 RP phase Nd9Ni8O25 (p-RP), which is non-superconducting, and its reduced square-planar counterpart Nd9Ni8O18 (r-RP), which exhibits superconducting correlations with a Tc ≈ 5 K. The n=8 p-RP develops a spin-density-wave (SDW) ground state with ordering wave vector qSDW = (1/4,\, 1/4), analogous to the bilayer RP, while the n=8 r-RP shows an elastic peak at q = (1/3,\, 0). Polarimetric RIXS shows that the p-RP exhibits low-energy spectra dominated by weakly dispersive paramagnons along the 0→π and π \!→\! π directions, whereas the r-RP with superconducting correlations displays dispersionless magnetic excitations. Our results comprehensively map out the spin excitations and reveal fundamental differences in the ground state between these two distinct structural families.
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