Nuclear modification factor of non-photonic electrons in heavy-ion collisions and the heavy-flavor baryon-to-meson ratio

Abstract

The nuclear modification factor RAA of non-photonic electrons in Au + Au collisions at sNN = 200 GeV is studied by considering the decays of heavy-flavor hadrons produced in a quark coalescence model. Although an enhanced c/D0 ratio is predicted by the coalescence model, it is peaked at small transverse momenta ( 2 GeV) due to the large difference between heavy and light quark masses. As a result, the enhanced c/D0 ratio, which is expected to suppress the electron RAA as the branching ratio of c decay into electrons is smaller than that of D0, does not lead to additional suppression of the electron RAA at large transverse momenta ( 5 GeV), where the suppression is mainly due to heavy quark energy loss in produced quark-gluon plasma. Also, the enhanced b/B0 ratio predicted by the coalescence model has even smaller effect on the non-photonic electron RAA as bottom baryons and mesons have similar branching ratios for semi-leptonic decays into electrons.