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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A Bayesian method restricting the system matrix to observed channels and using conjugate Gamma-Exponential updates enables rapid 3D estimation of positronium effective lifetime from sparse events.
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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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A Conjugate Bayesian Framework for Fast 3D Positronium Lifetime Estimation with a Partial System Matrix
A Bayesian method restricting the system matrix to observed channels and using conjugate Gamma-Exponential updates enables rapid 3D estimation of positronium effective lifetime from sparse events.