Chiral phase transition and spin alignment of vector mesons with chiral imbalance in a rotating QCD medium
Abstract
We study the two-flavor NJL model under the rotation and chiral chemical potential μ5. Firstly, the influence of chiral imbalance on the chiral phase transition in the Tpc-ω plane is investigated. Research manifests that as μ5 increases, the critical point (CEP) of the Tpc-ω plane chiral phase transition will move closer to the T axis. This means that the chiral chemical potential μ5 can significantly affect the Tpc-ω phase diagram and phase transition behavior. While discussing the Tpc-ω phase diagram, we also study the spin alignment of the vector meson under rotation. In the study of the spin alignment of the vector meson , 00 is the 00 element of the spin density matrix of vector mesons. At high temperatures, 00 is close to 1/3, it indicates that the spin alignment of the vector meson is isotropic. It is found that increasing the chiral chemical potential μ5 significantly enhances 00, and makes 00 approaching to 1/3 around the phase transition temperature. When rotational angular velocity is zero, 00 is close to 1/3, but as ω increases, 00 significantly decreases, and deviates 1/3, indicating that rotation can significantly cause polarization characteristics. The 00-r relationship near the phase transition temperature is studied. It is found that the farther away from the center of rotation, the lower the degree of spin polarization of the system. It is also found that the influence of chiral imbalance on the 00-r relationship is also significant.
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