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Paper detail

Occupation switching of $d$ orbitals probed via hyperfine interactions in vanadium dioxide

Metal-insulator transition was microscopically investigated by orbital-resolved nuclear magnetic resonance (OR-NMR) spectroscopy in a single crystal of vanadium dioxide VO$_2$. Observations of the anisotropic $^{51}$V Knight shift and the nuclear quadrupole frequency allow us to evaluate orbital-dependent spin susceptibility and $d$ orbital occupations. The result is consistent with the degenerated $t_{2g}$ orbitals in a correlated metallic phase and the $d$ orbital ordering in a nonmagnetic insulating phase. The predominant orbital pointing along the chain facilitates a spin-singlet formation triggering metal-insulator transition. The asymmetry of magnetic and electric hyperfine tensors suggests the $d$ orbital reformation favored by a low-symmetry crystal field, forming a localized molecular orbital. The result highlights the cooperative electron correlation and electron-phonon coupling in Mott transition with orbital degrees of freedom.

preprint2020arXivOpen access
Yasuhiro ShimizuTakaaki Jin-noFumitatsu IwaseMasayuki ItohYutaka Ueda
cond-mat.str-el
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Yasuhiro ShimizuTakaaki Jin-noFumitatsu IwaseMasayuki ItohYutaka Ueda

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