Electronic layer decoupling driven by density-wave order in La$_4$Ni$_3$O$_{10}$

Alexander M. Young; Antia S. Botana; Carl A. Guia; Christopher C. Homes; Ezra Day-Roberts; Filippo Glerean; Harrison LaBollita; J. F. Mitchell; Mark P. M. Dean; Matteo Mitrano

arxiv: 2601.08997 · v1 · pith:T5B3MZWOnew · submitted 2026-01-13 · ❄️ cond-mat.str-el · cond-mat.mtrl-sci· cond-mat.supr-con

Electronic layer decoupling driven by density-wave order in La₄Ni₃O₁₀

Ziqiang Guan , Sophia F. R. TenHuisen , M. Tepie , Yifeng Zhao , Ezra Day-Roberts , Harrison LaBollita , Alexander M. Young , Xiaomeng Cui

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Xinglong Chen Filippo Glerean Carl A. Guia Mark P. M. Dean Philip Kim J. F. Mitchell Antia S. Botana Christopher C. Homes Matteo Mitrano

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classification ❄️ cond-mat.str-el cond-mat.mtrl-scicond-mat.supr-con

keywords electronicdensity-waveout-of-planedecouplingdrivenorderaccompaniedanisotropic

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We probe the density-wave transition of the trilayer nickelate La$_4$Ni$_3$O$_{10}$ with polarization-resolved infrared spectroscopy. The low-energy electrodynamics is strongly anisotropic, with metallic in-plane and insulating out-of-plane character. In the ordered phase, the anisotropy grows more than an order of magnitude as the out-of-plane conductivity is sharply suppressed. We interpret this enhancement as an effective electronic decoupling of the Ni-O layers, driven by a spin-density-wave-induced redistribution of Ni-$d_{z^2}$ occupation within the trilayers. This electronic response is accompanied by clear shifts and splittings of the out-of-plane phonons, compatible with a density-wave instability of electronic origin.

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