Resolving the R pA and v2 puzzle of D0 mesons in p-Pb collisions

Abstract

It has been difficult to reconcile the experimental data on the D0 meson nuclear modification factor and elliptic flow in p-Pb collisions at LHC energies. Here we study these observables with the string melting version of a multi-phase transport model, which has been improved with the implementation of the Cronin effect (or transverse momentum broadening) and independent fragmentation for charm quarks. Using a strong Cronin effect allows us to provide the first simultaneous description of the D0 meson R pA and v2 data at p T ≤ 8 GeV/c. The model also provides a reasonable description of the D0 meson p T spectra and the low-p T (below 2 GeV/c) charged hadron spectra in p+p and p-Pb collisions as well as R pA and v2 in p-Pb collisions. We find that both parton scatterings and the Cronin effect are important for the D0 meson R pA, while parton scatterings are mostly responsible for the D0 meson v2. Our results indicate that it is crucial to include the Cronin effect for the simultaneous description of the D0 meson R pA and v2. Since the Cronin effect is expected to grow with the system size, this work implies that the Cronin effect could also be important for heavy hadrons in large systems.