Bell nonlocality and entanglement in cJ decays into baryon pair

Abstract

We present a systematic analysis of Bell nonlocality and entanglement in cJ(J=0,1,2) decays into baryon pair(BB), with particular emphasis on their production via the process e+e- (2S) γ cJ at BESIII. From the baryon-antibaryon spin density matrix, we construct measurable Bell observables and concurrence, revealing a striking hierarchy of quantum correlations: c0 decays exhibit maximal violation and entanglement; c1 decays violate Bell inequalities for θ1 ∈ (0, π) with angle-modulated strength; we find that the BB pair in c2 decays is in a separable state, and no indication of Bell inequality violation is observed. We provide complete analytical results for J=0,1 and quantitative, uncertainty-aware estimations for J=2 based on experimental inputs from BESIII. These results establish the cJ system produced via this radiative transition as a novel and promising platform for testing quantum entanglement and Bell nonlocality in high-energy collisions.

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