P-wave nucleon-pion scattering amplitude in the (1232) channel from lattice QCD
Abstract
We determine the (1232) resonance parameters using lattice QCD and the L\"uscher method. The resonance occurs in elastic pion-nucleon scattering with JP=3/2+ in the isospin I = 3/2, P-wave channel. Our calculation is performed with Nf=2+1 flavors of clover fermions on a lattice with L≈ 2.8 fm. The pion and nucleon masses are mπ =255.4(1.6) MeV and mN=1073(5) MeV, and the strong decay channel → π N is found to be above the threshold. To thoroughly map out the energy-dependence of the nucleon-pion scattering amplitude, we compute the spectra in all relevant irreducible representations of the lattice symmetry groups for total momenta up to P=2πL(1,1,1), including irreps that mix S and P waves. We perform global fits of the amplitude parameters to up to 21 energy levels, using a Breit-Wigner model for the P-wave phase shift and the effective-range expansion for the S-wave phase shift. From the location of the pole in the P-wave scattering amplitude, we obtain the resonance mass m=1378(7)(9) MeV and the coupling g-π N=23.8(2.7)(0.9).
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