The Cabibbo-Kobayashi-Maskawa matrix in the standard model is currently the only experimentally confirmed source of CP violation. The intrinsic electric dipole moment of the nucleon induced by this CP phase via hadronic loop and pole diagrams was studied more than two decades ago, but is subject to various theoretical issues such as the breakdown of chiral power counting and uncertainties in the determination of low energy constants. I carry out an up-to-date re-analysis on both one-loop and pole diagram contributions to the nucleon electric dipole moment based on heavy baryon chiral perturbation theory in a way that preserves power counting, and I redo the determination of the low-energy constants following the results of more recent articles. Combined with an estimation of higher-order contributions, I expect the long-distance contribution to the standard model nucleon electric dipole moment to be approximately $(1\times {10}^{-32}–6\times {10}^{-32})e\mathrm{cm}$.

• Received 17 November 2014
• Revised 19 January 2015

DOI:https://doi.org/10.1103/PhysRevC.91.025502