D meson production asymmetry, unfavoured fragmentation and consequences for prompt atmospheric neutrino production

Abstract

We consider unfavoured light quark/antiquark to D meson fragmentation. We discuss nonperturbative effects for small transverse momenta. The asymmetry for D+ and D- production measured by the LHCb collaboration provides natural constraints on the parton (quark/antiquark) fragmentation functions. We find that already a fraction of q/ q D fragmentation probability is sufficient to account for the measured asymmetry. We make predictions for similar asymmetry for neutral D mesons. Large D-meson production asymmetries are found for large xF which is related to dominance of light quark/antiquark q/ q D fragmentation over the standard c D fragmentation. As a consequence, prompt atmospheric neutrino flux at high neutrino energies can be much larger than for the conventional c D fragmentation. The latter can constitute a sizeable background for the cosmic neutrinos claimed to be observed recently by the IceCube Observatory. Large rapidity-dependent D+/D- and D0/ D0 asymmetries are predicted for low (s = 20 - 100 GeV) energies. The q/ q D fragmentation leads to enhanced production of D mesons at low energies. At s = 20 GeV the enhancement factor with respect to the conventional contribution is larger than a factor of five. In the considered picture the large-xF D mesons are produced dominantly via fragmentation of light quarks/antiquarks. Predictions for fixed target p+4\!He collisions relevant for a fixed target LHCb experiment are presented.