The isoscalar non-singlet axial form factor of the nucleon from lattice QCD

Abstract

We present our progress on the computation of the axial form factor of the nucleon with flavour structure u+d-2s from lattice QCD. We employ a set of Nf=2+1 CLS ensembles with O(a)-improved Wilson fermions and the L\"uscher-Weisz gauge action, with lattice spacings ranging from 0.05\,fm to 0.086\,fm and pion masses spanning between 130\,MeV and 350\,MeV. We employ multiple source-sink separations and use the summation method to suppress the contamination from excited states. We use a z-expansion on each ensemble to parametrize the Q2-dependence of the form factor and simultaneously fit the available source-sink separations for all Q2≤ 0.7 \, GeV2. We outline our analysis of the stability of the fits varying the ans\"atze and different estimations of the covariance matrix and report on our strategy for a comprehensive determination of the physical form factor.

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