Hadronic scattering effects on polarization in relativistic heavy ion collisions
Abstract
The hyperon spin flip and non-flip cross sections are calculated in a simple hadronic model by including both the s-channel process involving the spin 3/2, positive parity *(1358) resonance and the t-channel process via the exchange of a scalar σ meson. Because of its large mass, the spin flip to non-flip cross sections is negligibly small in the t-channel process compared to the constant value of 1/3.5 in the s-channel process. With the s-channel -π spin-dependent cross sections included in a schematic kinetic model, the effects of hadronic scatterings on the spin polarization in Au-Au collisions at sNN=7.7 GeV are studied. It is found that the spin polarization only decreases by 7-12\% during the hadronic stage of these collisions, which justifies the assumption in theoretical studies that compare the polarization calculated at the chemical freezeout to the measured one at the kinetic freezeout.
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