Hyperon spin correlation in high-energy heavy-ion collisions

Abstract

Recent experimental data show an unexpectedly large spin alignment of φ mesons in high-energy heavy-ion collisions, which can be explained by short-distance fluctuations of strong-force fields (vector φ fields) within the constituent-quark model. We calculate the hyperon spin correlations within the same model, taking into account hydrodynamic effects and a φ field fluctuating in space-time according to a Gaussian distribution. The spin correlation induced by the φ field is shown to be negative as opposed to that of or . We thus propose a new net spin-correlation observable as a sensitive probe to separate strong-force effects from hydrodynamic ones. With the strength of the field fluctuations extracted from the observed φ spin alignment, we predict the collision-energy dependence of the hyperon spin correlations and also investigate the dependence of the net spin correlation on azimuthal-angle and rapidity difference.