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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In the 1D Kondo lattice model, finite electron filling or a singlet magnetic background produces a stationary state after carrier relaxation that matches thermal expectations, unlike the one- or two-carrier ferromagnetic cases.
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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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Charge carrier relaxation dynamics in the one-dimensional Kondo lattice model
In the 1D Kondo lattice model, finite electron filling or a singlet magnetic background produces a stationary state after carrier relaxation that matches thermal expectations, unlike the one- or two-carrier ferromagnetic cases.