Weak anharmonicity induces dissipation into dark states of photon-emitter pairs; first- and second-order perturbative corrections to the wavefunction are derived and applied to the master equation.
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Mean-field theory with Gutzwiller ansatz reveals antiferromagnetic Mott insulators, ferromagnetic density waves, three supersolids, and NOON density waves for spinor bosons in cavity lattices, with a trapped-system phase diagram.
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Perturbative Analysis of Dark State Dynamics in Weakly Anharmonic Photon-Emitter Pairs
Weak anharmonicity induces dissipation into dark states of photon-emitter pairs; first- and second-order perturbative corrections to the wavefunction are derived and applied to the master equation.
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Mean-field phase diagrams of spinor bosons in an optical cavity
Mean-field theory with Gutzwiller ansatz reveals antiferromagnetic Mott insulators, ferromagnetic density waves, three supersolids, and NOON density waves for spinor bosons in cavity lattices, with a trapped-system phase diagram.