Bottomed mesons and baryons in pp collisions at s=5 \, TeV LHC energy within a Coalescence plus Fragmentation approach

Recent experimental data from pp collisions have shown a significant increase in heavy baryon production leading to a baryon over meson ratio which is one order of magnitude higher than elementary collisions (e^+e^-, ep). From a theoretical point of view this large production of baryon can be explained with hadronization via quark coalescence assuming a QGP medium in pp collisions. In this study, we extend this analysis to include hadrons containing bottom quarks. Employing a coalescence plus fragmentation approach, we present predictions for pT spectra and the heavy baryon/meson ratio of charmed hadrons with and without strangeness content, specifically: B⁰, Bₛ, b, b^0, -, b, and the Bc meson. We have found that coalescence is the dominant mechanism in the B meson production, especially at low momenta, at variance with what found in the charm sector where the D meson were mainly produced via fragmentation. Our model predicts a b/B⁰0. 5\!-\!1 and b⁰/B⁰ ratio around 0. 3 at very low transverse momentum, which are about 1. 5 larger then those of the corresponding charmed hadron ratios at the same collision energy. Furthermore, we discuss the relative ratios between charmed and bottomed hadrons, emphasizing how these observables can provide information about the distribution of charm and bottom quarks and, if experimentally observed, would further support the idea of quark-gluon plasma formation even in small collision systems.