Circularly polarized light induces an octupolar inverse Faraday effect and anisotropic multipolar exchange in 4d2/5d2 Mott insulators, opening a nonequilibrium phase space with tunable antiferro-octupolar, ferro-octupolar, and multipolar liquid states.
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The Kitaev-J3 model hosts deconfined magnetic phases in which zigzag or antiferromagnetic order coexists with remnant Z2 topological structure inherited from the Kitaev spin liquid through vison-pair condensation.
Resonant x-ray scattering shows three-dimensional zigzag correlations persisting above TN in RuBr3, stabilized by enhanced interlayer magnetic interactions from extended Br 4p orbitals.
citing papers explorer
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Light-driven octupolar inverse Faraday effect and multipolar order in Mott insulators
Circularly polarized light induces an octupolar inverse Faraday effect and anisotropic multipolar exchange in 4d2/5d2 Mott insulators, opening a nonequilibrium phase space with tunable antiferro-octupolar, ferro-octupolar, and multipolar liquid states.
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Evidence for Deconfined Magnetic Order in the Kitaev-$J_3$ Model
The Kitaev-J3 model hosts deconfined magnetic phases in which zigzag or antiferromagnetic order coexists with remnant Z2 topological structure inherited from the Kitaev spin liquid through vison-pair condensation.
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Three-dimensional zigzag correlations in the van der Waals Kitaev magnet RuBr$_3$
Resonant x-ray scattering shows three-dimensional zigzag correlations persisting above TN in RuBr3, stabilized by enhanced interlayer magnetic interactions from extended Br 4p orbitals.