Spin alignment of vector mesons from quark dynamics in a rotating medium

Abstract

Vorticities in heavy-ion collisions (HICs) are supposed to induce spin alignment and polarization phenomena of quarks and mesons. In this work, we analyze the spin alignment of vector mesons φ and induced by rotation from quark dynamics in the framework of the Nambu-Jona-Lasinio (NJL) model. The rotating angular velocity induces mass splitting of spin components for vector φ, mesons Mφ,() Mφ,(=0)-sz. This behavior contributes to the spin alignment of vector mesons φ, in an equilibrium medium and naturally explains the negative deviation of 00-1/3 for vector mesons. Incidentally, the positive deviation of 00-1/3 under the magnetic field can also be easily understood from quark dynamics.