First Detailed Study of the Quantum Decoherence of Entangled Gamma Photons

Julien Bordes; James R. Brown; Daniel P. Watts; Mikhail Bashkanov; Kieran Gibson; Ruth Newton; Nicholas Zachariou

doi:10.1103/PhysRevLett.133.132502

First Detailed Study of the Quantum Decoherence of Entangled Gamma Photons

Julien Bordes, James R. Brown, Daniel P. Watts^*, Mikhail Bashkanov, Kieran Gibson, Ruth Newton, Nicholas Zachariou

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Constraints on the quantum decoherence of entangled γ quanta at the mega-electron-volt scale, such as those produced following positron annihilation, have remained elusive for many decades. We present the first statistically and kinematically precise experimental data for triple Compton scattering of such entangled γ. An entanglement witness (R), relating to the enhancement of the azimuthal correlation between the final scattering planes, is obtained where one of the γ underwent intermediate Compton scattering. The measured R, deconvolved from multiple scattering backgrounds, are found to exceed the classical limit for intermediate scatter angles up to ∼60° and diminish at larger angles. The data are consistent with predictions from a first quantum theory of entangled triple Compton scattering as well as a simple model based approach. The results are crucial to future study and utilization of entangled mega-electron-volt γ in fundamental physics and positron emission tomography imaging.

Original language	English
Article number	132502
Number of pages	6
Journal	Physical Review Letters
Volume	133
Issue number	13
DOIs	https://doi.org/10.1103/PhysRevLett.133.132502
Publication status	Published - 25 Sept 2024

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© 2024 authors. Published by the American Physical Society.

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Cite this

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title = "First Detailed Study of the Quantum Decoherence of Entangled Gamma Photons",

abstract = "Constraints on the quantum decoherence of entangled γ quanta at the mega-electron-volt scale, such as those produced following positron annihilation, have remained elusive for many decades. We present the first statistically and kinematically precise experimental data for triple Compton scattering of such entangled γ. An entanglement witness (R), relating to the enhancement of the azimuthal correlation between the final scattering planes, is obtained where one of the γ underwent intermediate Compton scattering. The measured R, deconvolved from multiple scattering backgrounds, are found to exceed the classical limit for intermediate scatter angles up to ∼60° and diminish at larger angles. The data are consistent with predictions from a first quantum theory of entangled triple Compton scattering as well as a simple model based approach. The results are crucial to future study and utilization of entangled mega-electron-volt γ in fundamental physics and positron emission tomography imaging.",

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AU - Bordes, Julien

AU - Brown, James R.

AU - Watts, Daniel P.

AU - Bashkanov, Mikhail

AU - Gibson, Kieran

AU - Newton, Ruth

AU - Zachariou, Nicholas

PY - 2024/9/25

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First Detailed Study of the Quantum Decoherence of Entangled Gamma Photons

Abstract

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