Lower bound on the proton charge radius from electron scattering data

Abstract

The proton charge-radius determinations from the electromagnetic form-factor measurements in electron-proton scattering require an extrapolation to zero momentum transfer (Q2=0) which is prone to model-dependent assumptions. We show that the data at finite momentum transfer can be used to establish a rigorous lower bound on the proton charge radius. Using the available ep data at low Q2, we obtain RE > 0.850(1) fm as the lower bound on the proton radius. This reaffirms the discrepancy between the ep and muonic-hydrogen values, while bypassing the model-dependent assumptions that go into the fitting and extrapolation of the ep data.