Signatures of polarized chiral spin disproportionation in rare earth nickelates.
Jiarui LiRobert J GreenClaribel DomínguezAbraham LevitanYi TsengSara CatalanoJennifer FowlieRonny SutartoFanny RodolakisLucas KorolJessica L McChesneyJohn W FreelandDirk van der MarelMarta GibertRiccardo CominPublished in: Nature communications (2024)
In rare earth nickelates (RENiO 3 ), electron-lattice coupling drives a concurrent metal-to-insulator and bond disproportionation phase transition whose microscopic origin has long been the subject of active debate. Of several proposed mechanisms, here we test the hypothesis that pairs of self-doped ligand holes spatially condense to provide local spin moments that are antiferromagnetically coupled to Ni spins. These singlet-like states provide a basis for long-range bond and spiral spin order. Using magnetic resonant X-ray scattering on NdNiO 3 thin films, we observe the chiral nature of the spin-disproportionated state, with spin spirals propagating along the crystallographic (101) ortho direction. These spin spirals are found to preferentially couple to X-ray helicity, establishing the presence of a hitherto-unobserved macroscopic chirality. The presence of this chiral magnetic configuration suggests a potential multiferroic coupling between the noncollinear magnetic arrangement and improper ferroelectric behavior as observed in prior studies on NdNiO 3 (101) ortho films and RENiO 3 single crystals. Experimentally-constrained theoretical double-cluster calculations confirm the presence of an energetically stable spin-disproportionated state with Zhang-Rice singlet-like combinations of Ni and ligand moments.
Keyphrases
- room temperature
- density functional theory
- transition metal
- ionic liquid
- single molecule
- molecular dynamics
- high resolution
- molecularly imprinted
- risk assessment
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- magnetic resonance imaging
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- computed tomography
- simultaneous determination
- tandem mass spectrometry
- solid phase extraction