CaCu3Ir4O12 shows a dynamic quantum-disordered magnetic ground state with strong spin fluctuations persisting to 40 mK despite antiferromagnetic interactions of ~200 K.
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Additional spin-orbital degrees of freedom produce strong thermal and quantum fluctuations that stabilize disordered nematic phases in the extended Kitaev-Yao-Lee model.
NLCE calculations on the J-K-Γ model for α-RuCl3 show that the linear magnetostriction coefficient perpendicular to the plane exhibits a dip-like feature tied to the suppression of magnetic order.
citing papers explorer
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Emergent Dynamic Magnetic Ground State in a Mixed 3d/5d Heavy Fermion System CaCu3Ir4O12
CaCu3Ir4O12 shows a dynamic quantum-disordered magnetic ground state with strong spin fluctuations persisting to 40 mK despite antiferromagnetic interactions of ~200 K.
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Thermal and quantum fluctuations in extended Kitaev-Yao-Lee spin-orbital model
Additional spin-orbital degrees of freedom produce strong thermal and quantum fluctuations that stabilize disordered nematic phases in the extended Kitaev-Yao-Lee model.
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Magnetostriction in the $J$-$K$-$\Gamma$ model: Application of the numerical linked cluster expansion
NLCE calculations on the J-K-Γ model for α-RuCl3 show that the linear magnetostriction coefficient perpendicular to the plane exhibits a dip-like feature tied to the suppression of magnetic order.