We show that in previous analyses of electron–proton scattering, the uncertainties in the statistical procedure to extract the proton charge radius are underestimated. Using a fit function based on a conformal mapping, we can describe the scattering data with high precision and extract a radius value in agreement with the one obtained from muonic hydrogen
The proton charge radius is a fundamental property of the proton, sensitive to its charge distributi...
AbstractWe study the world data on elastic electron–proton scattering in order to determine the prot...
The discrepancy between the proton charge radius extracted from the muonic hydrogen Lamb shift measu...
We show that in previous analyses of electron–proton scattering, the uncertainties in the statistica...
AbstractWe show that in previous analyses of electron–proton scattering, the uncertainties in the st...
We show that in previous analyses of electron–proton scattering, the uncertainties in the statistica...
The rms-radius R of the proton charge distribution is a fundamental quantity needed for precision ph...
We present a novel method for extracting the proton radius from elastic electron-proton (ep) scatter...
International audienceThe charge radius of the proton can be determined using two different experime...
International audienceThe dimension of the proton, the basic building block of matter, is still obje...
The static properties of hadrons, such as their radii and other moments of the electric and magnetic...
We determine the charge radius of the proton by analyzing the published low momentum transfer electr...
The precise determination of the proton radius from recent elastic scattering electron–proton data i...
We analyze the recent electron-proton scattering data from Mainz using a dispersive framework that r...
Due to the peculiar shape of the proton charge density ρ(r) the value of the rms-radius r rms determ...
The proton charge radius is a fundamental property of the proton, sensitive to its charge distributi...
AbstractWe study the world data on elastic electron–proton scattering in order to determine the prot...
The discrepancy between the proton charge radius extracted from the muonic hydrogen Lamb shift measu...
We show that in previous analyses of electron–proton scattering, the uncertainties in the statistica...
AbstractWe show that in previous analyses of electron–proton scattering, the uncertainties in the st...
We show that in previous analyses of electron–proton scattering, the uncertainties in the statistica...
The rms-radius R of the proton charge distribution is a fundamental quantity needed for precision ph...
We present a novel method for extracting the proton radius from elastic electron-proton (ep) scatter...
International audienceThe charge radius of the proton can be determined using two different experime...
International audienceThe dimension of the proton, the basic building block of matter, is still obje...
The static properties of hadrons, such as their radii and other moments of the electric and magnetic...
We determine the charge radius of the proton by analyzing the published low momentum transfer electr...
The precise determination of the proton radius from recent elastic scattering electron–proton data i...
We analyze the recent electron-proton scattering data from Mainz using a dispersive framework that r...
Due to the peculiar shape of the proton charge density ρ(r) the value of the rms-radius r rms determ...
The proton charge radius is a fundamental property of the proton, sensitive to its charge distributi...
AbstractWe study the world data on elastic electron–proton scattering in order to determine the prot...
The discrepancy between the proton charge radius extracted from the muonic hydrogen Lamb shift measu...
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