S-wave pion-pion scattering lengths from nucleon-meson fluctuations
Abstract
We present calculations of the S-wave isospin-zero and isospin-two pion-pion scattering lengths within a nucleon-meson model with parity doubling. Both scattering lengths are computed in various approximations, ranging from a mean-field (MF) calculation towards the inclusion of loop corrections by means of the functional renormalization group (FRG). The bosonic part of the investigated nucleon-meson model is formulated in terms of stereographic projections as a "natural" set of coordinates on the respective vacuum manifold. We thereby elucidate subtleties concerning the truncation of the effective action w.r.t. higher-derivative pion interactions and the "successful" computation of the scattering lengths. As the main result, we find simultaneous agreement for the isospin-zero and isospin-two scattering lengths with experimental data within the LPA-truncation of the FRG, together with chiral symmetry breaking (roughly) occurring at the characteristic scale of 4π fπ. The isoscalar σ-mass is dynamically generated by the FRG integration of momentum modes, and is a prediction of the model. It ends being of the order of 500\ MeV, i.e., much lower than the value (> 1\ GeV) found in MF or one-loop treatment of this or related models. Finally, the convergence of the corresponding low-energy expansion of the quantum effective action in terms of pion momenta is discussed.
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