European Physical Journal C: Particles and Fields (Sep 2024)
Investigating $$D^0$$ D 0 meson production in p-Pb collisions at 5.02 TeV with a multi-phase transport model
Abstract
Abstract We study the production of $$D^0$$ D 0 meson in p+p and p-Pb collisions using the improved AMPT model considering both coalescence and independent fragmentation of charm quarks after the Cronin broadening is included. After a detailed discussion of the improvements implemented in the AMPT model for heavy quark production, we show that the modified AMPT model can provide a good description of $$D^0$$ D 0 meson spectra in p-Pb collisions, the $$Q_{\textrm{pPb}}$$ Q pPb data at different centralities and $$R_{\textrm{pPb}}$$ R pPb data in both mid- and forward (backward) rapidities. We also studied the effects of nuclear shadowing and parton cascade on the rapidity dependence of $$D^{0}$$ D 0 meson production and $$R_{\textrm{pPb}}$$ R pPb . Our results indicate that using the same strength of the Cronin effect (i.e $$\delta $$ δ value) as that obtained from the mid-rapidity data leads to a considerable overestimation of the $$D^0$$ D 0 meson spectra and $$R_{\textrm{pPb}}$$ R pPb data at high $$p_{\textrm{T}}$$ p T in the backward rapidity. As a result, the $$\delta $$ δ is determined via a $$\chi ^2$$ χ 2 fitting of the $$R_{\textrm{pPb}}$$ R pPb data across various rapidities. This work lays the foundation for a better understanding of cold-nuclear-matter (CNM) effects in relativistic heavy-ion collisions.
