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Turing instability in quantum activator-inhibitor systems
Abstract: Turing instability is a fundamental mechanism of nonequilibrium self-organization [1]. However, despite the universality of its essential mechanism, Turing instability has thus far been investigated mostly in classical systems. In this study, we show that Turing instability can occur in a quantum dissipative system and analyze its quantum features such as entanglement and the effect of measurement. We propose a degenerate parametric oscillator with nonlinear damping in quantum optics as a quantum activator-inh…
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“…Ref. [39] established that symmetry-breaking states support quantum mechanical entanglement. Here we investigate how the Kerr nonlinearity affects the phenomenon of quantum entanglement.…”
Section: Effect Of Kerr Nonlinearity On Entanglementmentioning
confidence: 99%
“…Ref. [39] established that symmetry-breaking states support quantum mechanical entanglement. Here we investigate how the Kerr nonlinearity affects the phenomenon of quantum entanglement.…”
Section: Effect Of Kerr Nonlinearity On Entanglementmentioning
confidence: 99%
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