Nπ-state contamination in lattice calculations of the nucleon electromagnetic form factors

Abstract

The nucleon-pion-state contribution to QCD two-point and three-point functions relevant for lattice calculations of the nucleon electromagnetic form factors are studied in chiral perturbation theory. To leading order the results depend on a few experimentally known low-energy constants only, and the nucleon-pion-state contribution to the form factors can be estimated. The nucleon-pion-state contribution to the electric form factor G E(Q2) is at the +5 percent level for a source-sink separation of 2 fm, and it increases with increasing momentum transfer Q2. For the magnetic form factor the nucleon-pion-state contribution leads to an underestimation of G M(Q2) by about 5 percent that decreases with increasing Q2. For smaller source-sink separations that are accessible in present-day lattice simulations the impact is larger, although the ChPT results may not be applicable for such small time separations. Still, a comparison with lattice data at t≈ 1.6 fm works reasonably well.