Analyses of pion-nucleon elastic scattering amplitudes up to O(p4) in extended-on-mass-shell subtraction scheme

Abstract

We extend the analysis of elastic pion-nucleon scattering up to O(p4) level using extended-on-mass-shell subtraction scheme within the framework of covariant baryon chiral perturbation theory. Numerical fits to partial wave phase shift data up to s=1.13 GeV are performed to pin down the free low energy constants. A good description to the existing phase shift data is achieved. We find a good convergence for the chiral series at O(p4), considerably improved with respect to the O(p3)-level analyses found in previous literature. Also, the leading order contribution from explicit (1232) resonance and partially-included (1232) loop contribution are included to describe phase shift data up to s=1.20 GeV. As phenomenological applications, we investigate chiral correction to the Goldberger-Treiman relation %GT and find that it converges rapidly, and the O(p3) correction is found to be very small: 0.2%. We also get a reasonable prediction of pion-nucleon sigma term σπ N up to O(p4) by performing fits including both the pion-nucleon partial wave phase shift data and the lattice QCD data. We report that σπ N=527 MeV from the fit without (1232), and σπ N=456 MeV from the fit with explicit (1232).