Precision Nucleon Charges and Form Factors Using 2+1-flavor Lattice QCD

We present a high statistics study of the isovector nucleon charges and form factors using seven ensembles of 2+1-flavor Wilson-clover fermions. The axial vector and pseudoscalar form factors obtained on including the lower energy $N \pi$ excited state in the spectral decomposition of correlation functions satisfy the partially conserved axial current relation between them. Similarly, we find evidence that the $N\pi \pi $ excited state contributes to the correlation functions with the insertion of the vector current, consistent with the vector meson dominance model. The resulting form factors are consistent with the Kelly parameterization of the experimental electric and magnetic data. Our final estimates for the isovector charges are $g_{A}^{u-d} = 1.31(06)(02)_{\rm FV}(02)_Z (04)_{\rm ES}$, $g_{S}^{u-d} = 1.06(10)(02)_Z (06)_{\rm a}$, and $g_{T}^{u-d} = 0.95(05)(01)_Z (01)_{\rm ES}$. The form factors yield: (i) the axial charge radius squared, ${\langle r_A^2 \rangle}^{u-d}=0.428(53)(30) \ {\rm fm}^2$, (ii) the induced pseudoscalar charge, $g_P^\ast=7.9(7)(9)$, (iii) the pion-nucleon coupling $g_{\pi {\rm NN}} = 12.4(1.2)$, (iv) the electric charge radius squared, ${\langle r_E^2 \rangle}^{u-d} = 0.85(12)(19) \ {\rm fm}^2$, (v) the magnetic charge radius squared, ${\langle r_M^2 \rangle}^{u-d} = 0.71(19)(23) \ {\rm fm}^2$, and (vi) the magnetic moment $\mu^{u-d} = 4.15(22)(10)$. These are all consistent with phenomenological/experimental results. Lastly, we present a simple Pad\'e parameterization of the axial, electric and magnetic form factors over the range $0.04 < Q^2 < 1$ GeV${}^2$ for phenomenological studies.