Nuclear modification of forward D production in pPb collisions at the LHC

Abstract

We study nuclear modification factors for single D meson and semileptonic decay lepton l (=e,μ) production in minimum bias proton-nucleus (pA) collisions at the LHC in the color-glass-condensate (CGC) framework at leading order in strong coupling. In our numerical computations, transverse momentum (k) dependent multi-point Wilson line correlators are employed for describing target nucleus for pA and proton for pp. The projectile proton is treated with unintegrated gluon distribution function, which is also k-dependent. The rapidity evolutions of these functions in the small Bjorken x region are taken into account by solving running coupling Balitsky-Kovchegov (BK) equation at leading logarithmic accuracy. For simplicity, we employ Kartvelishvili's type fragmentation function and a simple model for lepton energy distribution from seileptonic decay, respectively, to compute differential cross sections for D and l production. The gluon saturation scale inside the heavy nucleus is enhanced and dependent on x, which we take into account by replacing the initial saturation scale in the BK equation with a larger value for the heavy nucleus. We show that the saturation effect leads to perceptible nuclear suppression of D production at forward rapidity. Our numerical results predict similar nuclear suppressions in pA collisions for forward l production at lower transverse momentum p<2\; GeV. Numerical tables on the nuclear modifications of D and l are listed in this note.