Evaluation of the strength of electron-proton scattering data for determining the proton charge radius

Abstract

Precisely measured electron-proton elastic scattering cross sections [Phys. Rev. Lett. 105, 242002 (2010)] are reanalyzed to evaluate their strength for determining the rms charge radius (R E) of the proton. More than half of the cross sections at lowest Q2 are fit using two single-parameter form-factor models, with the first based on a dipole parametrization, and the second on a linear fit to a conformal-mapping variable. These low-Q2 fits extrapolate the slope of the form factor to Q2=0 and determine R E values of approximately 0.84 and 0.89~fm, respectively. Fits spanning all Q2, in which the single constants are replaced with cubic splines at larger Q2, lead to similar results for R E. We conclude that the scattering data is consistent with R E ranging from at least 0.84 to 0.89~fm, and therefore cannot resolve the discrepancy between determinations of R E made using muonic and electronic hydrogen-atom spectroscopy.