High Energy Photon Polarimetry at Lepton Colliders: Quantum Information from Converted Photons

Abstract

We study high-energy photons produced at a lepton collider that convert into an e+e- pair in the detector, as a tool for measuring quantum information observables. We consider single- and double-conversion processes in e+e- γγ and e+e- e+e-γ. Single conversions enable an in situ extraction of the spin-analyzing power, while double conversions probe polarization correlations. Focusing on the Belle-II detector, we show that, depending on the reconstruction resolution of the opening angle of the conversion e+e- pair, quantum correlations of the diphoton system can be probed. In particular, measurements of violations of the Bell inequality, quantum discord, concurrence, nonstabilizerness, and steerability with spatially separated GeV-scale photons can be made at high significance.

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