4.5 Article

Local chiral interactions and magnetic structure of few-nucleon systems

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PHYSICAL REVIEW C
卷 99, 期 3, 页码 -

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AMER PHYSICAL SOC
DOI: 10.1103/PhysRevC.99.034005

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资金

  1. U.S. Department of Energy, Office of Science, Office of Nuclear Physics [DE-AC05-06OR23177, DE-AC02-06CH11357, DE-SC0010300]
  2. NUclear Computational Low-Energy Initiative (NUCLEI) SciDAC project

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The magnetic form factors of H-2, H-3, and He-3, deuteron photodisintegration cross sections at low energies, and deuteron threshold electrodisintegration cross sections at backward angles in a wide range of momentum transfers are calculated with the chiral two-nucleon (and three-nucleon) interactions including A intermediate states that have recently been constructed in configuration space. The A = 3 wave functions are obtained from hyperspherical-harmonics solutions of the Schrodinger equation. The electromagnetic current includes one- and two-body terms, the latter induced by one- and two-pion exchange (OPE and TPE, respectively) mechanisms and contact interactions. The contributions associated with Delta intermediate states are only retained at the OPE level and are neglected in TPE loop (tree-level) corrections to two-body (three-body) current operators. Expressions for these currents are derived and regularized in configuration space for consistency with the interactions. The low-energy constants that enter the contact currents are determined by reproducing the magnetic moments of these few-nucleon systems. The predicted form factors and deuteron electrodisintegration cross section are in excellent agreement with experiment for momentum transfers up to 2-3 fm(-1) . However, the experimental values for the deuteron photodisintegration cross section are consistently underestimated by theory, unless use is made of the Siegert form of the electric dipole transition operator. A complete analysis of the results is provided, including the clarification of the origin of the aforementioned discrepancy.

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