Spin alignment of vector mesons by second-order hydrodynamic gradients
Abstract
Starting with the polarization dependent Wigner function of vector mesons, we derive an expression for the 00-component (00) of spin density matrix in terms of the second order gradients of the vector meson distribution functions. We further apply a thermal model to analyze the transverse momentum and the azimuthal angle dependence of 00 for φ and K*0 mesons resulting from distribution gradients in Au-Au collisions with sNN=130 GeV at mid-rapidity. Our results for the transverse momentum dependence indicate that the deviations of 00 from 1/3 as the signal for spin alignment are greatly enhanced at large transverse momenta and have a strong centrality dependence while analysis of the azimuthal angle (φq) dependence suggest that such deviations have a (2φq) structure with opposite sign for φ and K*0. Our finding may be considered as a baseline for probing spin-alignment mechanisms beyond hydrodynamic gradients.
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