An automated design algorithm optimizes photonic experiment topologies and source parameters to achieve higher-probability entanglement generation for Bell, W, and NOON states while accounting for multi-pair emissions.
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Exact analytic state evolution and energy spectrum are derived for solvable bosonic models, with eigenstates expressed via continued fractions and Jacobi matrix principal minors.
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Automated experimental design for high-probability entanglement generation
An automated design algorithm optimizes photonic experiment topologies and source parameters to achieve higher-probability entanglement generation for Bell, W, and NOON states while accounting for multi-pair emissions.
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Exact State Evolution and Energy Spectrum in Solvable Bosonic Models
Exact analytic state evolution and energy spectrum are derived for solvable bosonic models, with eigenstates expressed via continued fractions and Jacobi matrix principal minors.