Single spin asymmetry in forward pA collisions from Pomeron-Odderon interference

Abstract

Working in the hybrid framework of the high energy pA collisions we identify a new contribution to transverse single spin asymmetry (SSA). The phase necessary for the SSA is provided by the Pomeron-Odderon interference in the dense nuclear target. The complete formula for the pA h X polarized cross section also contains the transversity distribution for the polarized projectile as well as the real part of the twist-3 fragmentation function. We numerically estimate the asymmetry AN and its nuclear dependence. Based on a model computation we find that AN can be a percent level in the forward and low-Ph region. For large nuclei we find significant suppression, with AN A-7/6 parametrically. As a notable feature we find a node of AN as a function of the Ph around the values of the initial saturation scale that could be used to test this mechanism experimentally.