In the open coupled-top Dicke model, photon loss induces spontaneous synchronization and two distinct dissipative quantum scars, one protected with persistent revivals and one showing slow decay linked to chaos-assisted tunneling for small spins.
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Using Hartree-Fock-Bogoliubov theory in the Popov approximation, the authors determine the finite-temperature phase diagram of Rabi-coupled Bose mixtures via spin gap softening and analyze collective modes in homogeneous and quasi-1D trapped geometries.
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Chaos to Synchronization and Dissipative Quantum Scarring in Open Coupled top-Dicke model in a Lossy Cavity
In the open coupled-top Dicke model, photon loss induces spontaneous synchronization and two distinct dissipative quantum scars, one protected with persistent revivals and one showing slow decay linked to chaos-assisted tunneling for small spins.
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Finite-temperature phase diagram and collective modes of coherently coupled Bose mixtures
Using Hartree-Fock-Bogoliubov theory in the Popov approximation, the authors determine the finite-temperature phase diagram of Rabi-coupled Bose mixtures via spin gap softening and analyze collective modes in homogeneous and quasi-1D trapped geometries.