Dilepton production in pp and np collisions at 1.25 GeV

Abstract

The inclusive reactions pp → e+ e- X and np → e+ e- X at the laboratory kinetic energy of 1.25 GeV are investigated in a model of dominance of nucleon and resonances. Experimental data for these reactions have recently been reported by the HADES Collaboration. In the original model, the dileptons are produced either from the decays of nucleon and resonances R → N e+ e- or from the Dalitz decays of π0- and η-mesons created in the R Nπ0 and R Nη decays. We found that the distribution of dilepton invariant masses in the pp → e+ e- X reaction is well reproduced by the contributions of R → N e+ e- decays and R → N π0, π0 γ e+e- decays. Among the resonances, the predominant contribution comes from the (1232), which determines both the direct decay channel R → N e+ e- and the pion decay channel. In the collisions np → e+ e- X, additional significant contributions arise from the η-meson Dalitz decays, produced in the np → npη and np → dη reactions, the radiative capture np → d e+ e-, and the np → np e+ e- bremsstrahlung. These mechanisms may partly explain the strong excess of dileptons in the cross section for collisions of np versus pp, which ranges from 7 to 100 times for the dilepton invariant masses of 0.2 to 0.5 GeV.