Experimental constraints on the $Ï$-nucleus real potential
arXiv:1407.0899 · doi:10.1016/j.physletb.2014.07.004
Abstract
In a search for $Ï$ mesic states, the production of $Ï$-mesons in coincidence with forward going protons has been studied in photon induced reactions on $^{12}$C for incident photon energies of 1250 - 3100 MeV. The $Ï^0 γ$ pairs from decays of bound or quasi-free $Ï$-mesons have been measured with the CBELSA/TAPS detector system in coincidence with protons registered in the MiniTAPS forward array. Structures in the total energy distribution of the $Ï^0 γ$ pairs, which would indicate the population and decay of bound $Ï~^{11}$B states, are not observed. The $Ï^0 γ$ cross section of 0.3 nb/MeV/sr observed in the bound state energy regime between -100 and 0 MeV may be accounted for by yield leaking into the bound state regime because of the large in-medium width of the $Ï$-meson. A comparison of the measured total energy distribution with calculations suggests the real part $V_0$ of the $Ï~^{11}$B potential to be small and only weakly attractive with $V_0(Ï=Ï_0) = -15\pm$ 35(stat) $\pm$20(syst) MeV in contrast to some theoretical predictions of attractive potentials with a depth of 100 - 150 MeV.
13 pages, 8 figures