Charge and Magnetic Properties of Three-Nucleon Systems in Pionless Effective Field Theory

Abstract

A method to calculate the form factor for an external current with non-derivative coupling for the three-body system in an effective field theory (EFT) of short-range interactions is shown. Using this method the point charge radius of 3He is calculated to next-to-next-to-leading order (NNLO) in pionless EFT (EFT(\!π)), and the magnetic moment and magnetic radius of 3H and 3He are calculated to next-to-leading order (NLO). For the 3He charge and magnetic form factors Coulomb interactions are ignored. The 3He point charge radius is given by 1.74(4) fm at NNLO. This agrees well with the experimental 3He point charge radius of 1.7753(54) fm [Angeli and Marinova, At. Data Nucl. Data Tables 99, 69 (2013)]. The 3H (3He) magnetic moment in units of nuclear magnetons is found to be 2.92(35) (-2.08(25)) at NLO in agreement with the experimental value of 2.979 (-2.127). For 3H (3He) the NLO magnetic radius is 1.78(11) fm (1.85(11) fm) which agrees with the experimental value of 1.840(182) fm (1.965(154) fm) [I. Sick, Prog. Part. Nucl. Phys. 47, 245 (2001)]. The fitting of the low-energy constant L1 of the isovector two-body magnetic current and the consequences of Wigner-SU(4) symmetry for the three-nucleon magnetic moments are also discussed.