Systematic Study of Two-Pion Production in NN Collisions -- from Single-Baryon to Di-Baryon Excitations
arXiv:1001.5446 · doi:10.1063/1.3483384
Abstract
The two-pion production in nucleon-nucleon collisions has been studied by exclusive and kinematically complete experiments from threshold up to $T_p$ = 1.36 GeV at CELSIUS-WASA. At near-threshold energies the total and differential distributions for the $Ï^+Ï^-$ and $Ï^0Ï^0$ channels are dominated by Roper excitation and its decay into $NÏ$ and $ÎÏ$ channels. At beam energies $T_p >$ 1.1 GeV the $ÎÎ$ excitation governs the two-pion production process. In the $Ï^+Ï^+$ channel evidence is found for the excitation of a higher-lying I=3/2 resonance, favorably the $Î(1600)$. The isovector fusion processes leading to the deuteron and to quasi-stable $^2$He, respectively, %with the production of an isovector pion-pair exhibit no or only a modest ABC-effect, {\it i.e.} low-mass enhancement in the $ÏÏ$-invariant mass spectrum, and can be described by conventional $t$-channel $ÎÎ$ excitation. On the other hand, the isoscalar fusion process to the deuteron %with the production of an isoscalar pion-pair exhibits a dramatic ABC-effect correlated with a narrow resonance-like energy dependence in the total cross section with a width of only 50 MeV and situated at a mass 90 MeV below the $ÎÎ$ mass.
Proceedings HADRON09