Spin alignment of vector mesons in heavy-ion collisions

Abstract

Polarized quarks and antiquarks in high-energy heavy-ion collisions can lead to the spin alignment of vector mesons formed by quark coalescence. Using the relativistic spin Boltzmann equation for vector mesons derived from Kadanoff-Baym equations with an effective quark-meson model for strong interaction and quark coalescence model for hadronizaton, we calculate the spin density matrix element 00 for φ mesons and show that anisotropies of local field correlations or fluctuations with respect to the spin quantization direction lead to φ meson's spin alignment. We propose that the local correlation or fluctuation of φ fields is the dominant mechanism for the observed the φ meson's spin alignment and its strength can be extracted from experimental data as functions of collision energies. The calculated transverse momentum dependence of 00 agrees with STAR's data. We further predict the azimuthal angle dependence of 00 which can be tested in future experiments.

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