Chiral 3π-exchange NN-potentials: Results for dominant next-to-leading order contributions
Abstract
We calculate in (two-loop) chiral perturbation theory the local NN-potentials generated by the three-pion exchange diagrams with one insertion from the second order chiral effective pion-nucleon Lagrangian proportional to the low-energy constants c1,2,3,4. The resulting isoscalar central potential vanishes identically. In most cases these 3π-exchange potentials are larger than the ones generated by the diagrams involving only leading order vertices due to the large values of c3,4 (which mainly represent virtual -excitation). A similar feature has been observed for the chiral 2π-exchange. We also give suitable (double-integral) representations for the spin-spin and tensor potentials generated by the leading-order diagrams proportional to gA6 involving four nucleon propagators. In these cases the Cutkosky rule cannot be used to calculate the spectral-functions in the infinite nucleon mass limit since the corresponding mass-spectra start with a non-vanishing value at the 3π-threshold. Altogether, one finds that chiral 3π-exchange leads to small corrections in the region r≥ 1.4 fm where 1π- and chiral 2π-exchange alone provide a very good strong NN-force as shown in a recent analysis of the low-energy pp-scattering data-base.
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