Rescattering effects on spin-interference for 0 photoproduction in heavy-ion collisions

Abstract

Recent measurements by various experiments in ultra-peripheral collisions have observed spin-interference in 0 photoproduction, marking a breakthrough in Fermi-scale quantum interference experiments. Building on this, STAR extended the measurement to hadronic heavy-ion collisions, where significant rescattering effects on 0 mesons were expected. In this study, we investigate how these rescattering effects influence the measurement of spin-interference. By embedding 0 mesons produced via photoproduction, modeled by the Vector Meson Dominance model, into the Ultrarelativistic Quantum Molecular Dynamics framework, we estimate the impact on the 2φ and 4φ modulations, where φ is the angle between 0 and one of the daughters' (π) transverse momentum. The results indicate a significant suppression of the 2φ modulation, while the 4φ modulation remains largely unaffected, which provides insight for understanding the difference due to rescattering effects between experimental measurements and theoretical predictions for 0 photoproduction in heavy-ion collisions.

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