Local Boolean kinetic constraints added to Dicke superradiance generate extensive mixed-state entanglement and a hierarchy of long-range entangled singlet dark states while retaining superradiant N^2 scaling.
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A symbolic quantum-trajectory construction produces closed-form exponential sums for populations and observables in multichannel Dicke superradiance, including first-order phase transition resemblance for two channels and scaling laws for balanced multi-channel cases.
Superradiant emission remains asymptotically robust to strong disorder in waveguide QED arrays because atoms spontaneously self-organize their spin states to optimize constructive interference.
citing papers explorer
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Extensive mixed-state entanglement in kinetically constrained superradiance
Local Boolean kinetic constraints added to Dicke superradiance generate extensive mixed-state entanglement and a hierarchy of long-range entangled singlet dark states while retaining superradiant N^2 scaling.
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Symbolic Quantum-Trajectory Method for Multichannel Dicke Superradiance
A symbolic quantum-trajectory construction produces closed-form exponential sums for populations and observables in multichannel Dicke superradiance, including first-order phase transition resemblance for two channels and scaling laws for balanced multi-channel cases.
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Robust Superradiance and Spontaneous Spin Ordering in Disordered Waveguide Quantum Electrodynamics
Superradiant emission remains asymptotically robust to strong disorder in waveguide QED arrays because atoms spontaneously self-organize their spin states to optimize constructive interference.