Quantum entanglement degree of positronium photons is derived as a function of oxygen partial pressure using lifetime and 3γ/2γ ratio to enable new PET biomarkers for hypoxia.
Compact an wideband nanoacoustic pass -band filters for future 5G and 6G cellular ra ios
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Nonlinear measurements at 22 GHz show LiNbO3 filters on sapphire substrates achieve higher IIP3 and better thermal stability than on silicon.
A network of N parametric down-conversion sources with local crystals at each observer produces 2N-photon interference that vanishes when any local pump is blocked, enabling violation of a lifted Clauser-Horne inequality for multipartite Bell-GHZ nonclassicality.
citing papers explorer
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Quantum Entanglement Degree, Mean Positronium Lifetime, and the $3\gamma$/$2\gamma$ Annihilation-Rate Ratio as Novel PET Biomarkers for Hypoxia -- Concept, Challenges, and Predictions
Quantum entanglement degree of positronium photons is derived as a function of oxygen partial pressure using lifetime and 3γ/2γ ratio to enable new PET biomarkers for hypoxia.
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Nonlinear Characterization of Thin-Film LiNbO3 Acoustic Filters
Nonlinear measurements at 22 GHz show LiNbO3 filters on sapphire substrates achieve higher IIP3 and better thermal stability than on silicon.
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Multipartite Bell-GHZ nonclassicality from interwoven frustrated down-conversion
A network of N parametric down-conversion sources with local crystals at each observer produces 2N-photon interference that vanishes when any local pump is blocked, enabling violation of a lifted Clauser-Horne inequality for multipartite Bell-GHZ nonclassicality.