Title: Hadronic effects on $Λ$ polarization in relativistic heavy ion collisions

Abstract: The $\Lambda$ 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 $\Sigma^*(1358)$ resonance and the $t$-channel process via the exchange of a scalar $\sigma$ meson. Although the $t$-channel process gives a thermally averaged cross section that is about a factor of 1.3 larger than that from the $s$-channel process, the $\Lambda$ spin flip to non-flip cross sections is negligibly small in the $t$-channel compared to the constant value of 1/3.5 in the $s$-channel process. With these cross sections included in a schematic kinetic model, the effects of hadronic scatterings on the $\Lambda$ spin polarization in Au-Au collisions at $\sqrt{s}_{NN}=7.7$ GeV are studied. It is found that the $\Lambda$ spin polarization only decreases by about 7\% during the hadronic stage of these collisions, which thus justifies the assumption in theoretical studies that compare the $\Lambda$ polarization calculated at the chemical freeze out to the measured one at the kinetic freeze out.