Experimental near-field imaging and Helmholtz modeling show quantum chaos signatures including scarring and Poisson-to-Wigner-Dyson crossover in phonon-polariton billiards.
Level Clustering in the Regular Spectrum
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Quantum thermalization occurs in chaotic and integrable regimes of a multispecies Bose-Josephson junction, with quantum scars remaining athermal in the chaotic regime.
In the long-range Haldane-Shastry model, pristine Poisson level statistics emerge only with combined position disorder and random magnetic fields, with an approximate scaling collapse governed by the product αδ when SU(2) symmetry is broken.
Extending ray-wave correspondence to phase space provides deeper insight into quantum chaos in mesoscopic systems by incorporating both position and momentum information.
citing papers explorer
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Signatures of quantum chaos in phonon-polariton billiards
Experimental near-field imaging and Helmholtz modeling show quantum chaos signatures including scarring and Poisson-to-Wigner-Dyson crossover in phonon-polariton billiards.
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Quantum Thermalization beyond Non-Integrability and Quantum Scars in a Multispecies Bose-Josephson Junction
Quantum thermalization occurs in chaotic and integrable regimes of a multispecies Bose-Josephson junction, with quantum scars remaining athermal in the chaotic regime.
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Level statistics of the disordered Haldane-Shastry model with $1/r^\alpha$ interaction
In the long-range Haldane-Shastry model, pristine Poisson level statistics emerge only with combined position disorder and random magnetic fields, with an approximate scaling collapse governed by the product αδ when SU(2) symmetry is broken.
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Quantum Chaos in Phase Space
Extending ray-wave correspondence to phase space provides deeper insight into quantum chaos in mesoscopic systems by incorporating both position and momentum information.