Lattice Calculation of the Proton Charge Radius
Author(s)
Detmold, William; Grebe, Anthony; Shanahan, Phiala E
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© Copyright owned by the author(s) under the terms of the Creative Commons. The charge radius of the proton has been measured in scattering and spectroscopy experiments using both electronic and muonic probes. The electronic and muonic measurements are discrepant at 5σ, giving rise to what is known as the proton radius puzzle. With the goal of resolving this, we introduce a novel method of using lattice QCD to determine the isovector charge radius – defined as the slope of the electric form factor at zero four-momentum transfer – by introducing a mass splitting between the up and down quarks. This allows us to access timelike four-momentum transfers as well as spacelike ones, leading to potentially higher accuracy in determining the form factor slope at Q2 = 0 by interpolation. In this preliminary study, we find a Dirac isovector radius squared of 0.320 ±0.074 fm2 at quark masses corresponding to mπ = 450 MeV. We compare the feasibility of this method with other approaches of determining the proton charge radius from lattice QCD.
Date issued
2015Department
Massachusetts Institute of Technology. Department of PhysicsJournal
Proceedings of Science
Publisher
Sissa Medialab