Precise Determination of Charge Dependent Pion-Nucleon-Nucleon Coupling Constants

Abstract

We undertake a covariance error analysis of the pion-nucleon-nucleon coupling constants from the Granada-2013 np and pp database comprising a total of 6720 scattering data below LAB energy of 350 MeV. Assuming a unique pion-nucleon coupling constant in the One Pion Exchange potential above a boundary radius rc=3 fm we obtain f2=0.0763(1). The effects of charge symmetry breaking on the 3P0, 3P1 and 3P2 partial waves are analyzed and we find fp2 = 0.0761(4), f02 = 0.0790(9) and fc2 = 0.0772(6) with a strong anti-correlation between fc2 and f02. We successfully test normality for the residuals of the fit. Potential tails in terms of different boundary radii as well as chiral Two-Pion-Exchange contributions as sources of systematic uncertainty are also investigated.