Recombination mechanism for D0-meson production and D0\!-\!D0 production asymmetry in the LHCb p\!+\!\!20\!N\!e fixed-target experiment

Abstract

We discuss production of neutral D mesons in proton-proton collisions at the LHC (fixed target mode) in the framework of the BJM recombination model. We present rapidity and transverse momentum distributions of D mesons and compare the recombination contribution to the dominant gluon-gluon fusion mechanism. Both the direct production, as dictated by the matrix element, and fragmentation of the associated c or c are included. The latter mechanism generates D mesons with smaller rapidities than those produced directly. We calculate the D0 + D0 meson distributions relevant for fixed target p\!+\!\!4\!H\!e collisions at s = 86.6 GeV as well as for p\!+\!\!20\!N\!e collisions at s = 69 GeV. The recombination component is consistent with the LHCb data and in addition results in production asymmetry. The asymmetries in D0\!-\!D0 production as a function of rapidity and transverse momentum are shown and the cancellation of terms for direct production and associated c/ c fragmentation is discussed.