Normal single-spin asymmetries in electron-proton scattering: two-photon exchange with intermediate state resonances

Abstract

We calculate the beam (Bn) and target (An) normal single-spin asymmetries in electron-proton elastic scattering from two-photon exchange amplitudes with resonance intermediate states of spin-parity 1/2 and 3/2 and mass W 1.8 GeV. The latest CLAS exclusive meson electroproduction data are used as input for the transition amplitudes from the proton to the excited resonance states. For Bn, the spin 3/2 resonances dominate by an order of magnitude over the spin 1/2 states. In general we observe cancellations between the negative contributions of the (1232) and N(1520) across both beam energy and scattering angle, and the positive contributions of the (1700) and N(1720), leading to a rather large overall uncertainty band in the total Bn. At forward angles and beam energies Elab<1 GeV, where the (1232) dominates, the calculated Bn tend to overshoot the A4 and SAMPLE data. The calculated Bn compare well with the measured values from the A4 and Qweak experiments with Elab>1 GeV.