Electric dipole moment of 225Ra due to P- and T-violating weak interactions

Abstract

We report rigorous calculations of electric dipole moment (EDM) in 225Ra due to parity and time-reversal violating tensor-pseudotensor (T-PT) and nuclear Schiff moment (NSM) interactions between the electrons and nucleus by employing the relativistic all order coupled-cluster (RCC) methods at various levels of approximation. The most accurate EDM (dA) results are obtained as dA=-10.04× 10-20 CT <σn>|e|cm and dANSM=-6.79 × 10-17 S (|e|fm3)-1 |e|cm with CT and S are the T-PT coupling constant and NSM respectively. Due to exhaustive treatment of the electron correlation effects in these calculations, the EDM results for the corresponding T-PT and NSM interactions reduce by about 45\% and 23\%, respectively, from the previously known values. Nonetheless they are still found to be 2-3 times larger than the 199Hg results. Validity of the RCC results are countenanced by comparing our calculations at the zeroth order Dirac-Fock method and all order random-phase approximation with the other groups. In view of the current experimental progress in the 225Ra EDM measurement, our high accuracy calculations are very useful to yield limits on CT and S in this atom. Thusly, it is possible to realize more accurate limits on the electron-quark T-PT interaction and θQCD parameter of particle physics in future.