
arXiv: 1809.06373
handle: 20.500.14352/12873
We extract the proton charge radius from the elastic form factor (FF) data using a novel theoretical framework combining chiral effective field theory and dispersion analysis. Complex analyticity in the momentum transfer correlates the behavior of the spacelike FF at finite $Q^2$ with the derivative at $Q^2 = 0$. The FF calculated in the predictive theory contains the radius as a free parameter. We determine its value by comparing the predictions with a descriptive global fit of the spacelike FF data, taking into account the theoretical and experimental uncertainties. Our method allows us to use the finite-$Q^2$ FF data for constraining the radius (up to $Q^2\sim$ 0.5 GeV$^2$ and larger) and avoids the difficulties arising in methods relying on the $Q^2 \rightarrow 0$ extrapolation. We obtain a radius of 0.844(7) fm, consistent with the high-precision muonic hydrogen results.
8 pages, 5 figures
Teoría de los quanta, Nuclear Theory, Atomic Physics (physics.atom-ph), High Energy Physics - Lattice (hep-lat), FOS: Physical sciences, 2208 Nucleónica, Physics - Atomic Physics, Nuclear Theory (nucl-th), High Energy Physics - Phenomenology, High Energy Physics - Lattice, High Energy Physics - Phenomenology (hep-ph), Partículas, 2210.23 Teoría Cuántica, Nuclear Experiment (nucl-ex), Nuclear Experiment
Teoría de los quanta, Nuclear Theory, Atomic Physics (physics.atom-ph), High Energy Physics - Lattice (hep-lat), FOS: Physical sciences, 2208 Nucleónica, Physics - Atomic Physics, Nuclear Theory (nucl-th), High Energy Physics - Phenomenology, High Energy Physics - Lattice, High Energy Physics - Phenomenology (hep-ph), Partículas, 2210.23 Teoría Cuántica, Nuclear Experiment (nucl-ex), Nuclear Experiment
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