English

Electromagnetic Currents and Magnetic Moments in $\chi$EFT

Nuclear Theory 2009-11-06 v2
Authors: S. Pastore , L. Girlanda , R. Schiavilla , M. Viviani , R. B. Wiringa
View on arXiv PDF DOI

Abstract

A two-nucleon potential and consistent electromagnetic currents are derived in chiral effective field theory (χ\chiEFT) at, respectively, Q2Q^{2} (or N2^2LO) and eQe Q (or N3^3LO), where QQ generically denotes the low-momentum scale and ee is the electric charge. Dimensional regularization is used to renormalize the pion-loop corrections. A simple expression is derived for the magnetic dipole (M1M1) operator associated with pion loops, consisting of two terms, one of which is determined, uniquely, by the isospin-dependent part of the two-pion-exchange potential. This decomposition is also carried out for the M1M1 operator arising from contact currents, in which the unique term is determined by the contact potential. Finally, the low-energy constants (LEC's) entering the N2^2LO potential are fixed by fits to the npnp S- and P-wave phase shifts up to 100 MeV lab energies.

Keywords

electromagnetism classical electromagnetism electric dipole moment

Cite

@article{arxiv.0906.1800,
  title  = {Electromagnetic Currents and Magnetic Moments in $\chi$EFT},
  author = {S. Pastore and L. Girlanda and R. Schiavilla and M. Viviani and R. B. Wiringa},
  journal= {arXiv preprint arXiv:0906.1800},
  year   = {2009}
}

Comments

v2: references added; corrections to text and abstract suggested by referee added

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