Orbitally driven spin-singlet dimerization in S=1 La₄Ru₂O₁₀

Hua Wu , Z. Hu , T. Burnus , J. D. Denlinger , P. G. Khalifah , D. Mandrus , L.-Y. Jang , H. H. Hsieh

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A. Tanaka K. S. Liang J. W. Allen R. J. Cava D. I. Khomskii L. H. Tjeng

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classification ❄️ cond-mat.str-el

keywords formationorbitalorderingspinspin-singletstateabsorptionacross

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Using x-ray absorption spectroscopy at the Ru-$L_{2,3}$ edge we reveal that the Ru$^{4+}$ ions remain in the $S$=1 spin state across the rare 4d-orbital ordering transition and spin-gap formation. We find using local spin density approximation + Hubbard U (LSDA+U) band structure calculations that the crystal fields in the low temperature phase are not strong enough to stabilize the $S$=0 state. Instead, we identify a distinct orbital ordering with a significant anisotropy of the antiferromagnetic exchange couplings. We conclude that La$_{4}$Ru$_{2}$O$_{10}$ appears to be a novel material in which the orbital physics drives the formation of spin-singlet dimers in a quasi 2-dimensional $S$=1 system.

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Orbitally driven spin-singlet dimerization in S=1 La₄Ru₂O₁₀

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