A heterodyne work-extraction receiver for quantum illumination with noisy two-mode-squeezed states achieves a Chernoff exponent linear in target transmissivity, matching ideal OPA performance via accessible first-moment signals from second-order correlations.
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Moderate entanglement in a system of coupled Kerr oscillators is associated with optimal performance in quantum reservoir computing for linear and nonlinear time-series forecasting.
Unified-(q,s) entropy entanglement is an entanglement monotone and monogamous for q>1, qs≥1, yielding one complete tightly completely monogamous GlMEM and three incomplete ones based on unified entropy.
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Quantum illumination with nonzero-mean signal-idler states via noise-enhanced heterodyne work extraction
A heterodyne work-extraction receiver for quantum illumination with noisy two-mode-squeezed states achieves a Chernoff exponent linear in target transmissivity, matching ideal OPA performance via accessible first-moment signals from second-order correlations.
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The Role of Entanglement in Quantum Reservoir Computing with Coupled Kerr Nonlinear Oscillators
Moderate entanglement in a system of coupled Kerr oscillators is associated with optimal performance in quantum reservoir computing for linear and nonlinear time-series forecasting.
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Unified entropy entanglement
Unified-(q,s) entropy entanglement is an entanglement monotone and monogamous for q>1, qs≥1, yielding one complete tightly completely monogamous GlMEM and three incomplete ones based on unified entropy.