Rigorous limits for hadronic and semi-leptonic CP-violating coupling constants from the electric dipole moment of 199Hg

Abstract

Relativistic many-body methods at different levels of approximations are employed to gain insights into the passage of the electron correlations from lower to higher levels in the accurate determination of the electric dipole polarizability (αd) and electric dipole moment (EDM) due to the electron-nucleus tensor-pseudotensor (T-PT) and nuclear Schiff moment (NSM) interactions of the 199Hg ground state. Moreover, plausible reasons for the differences in the previous calculations are pointed out. Comparison between the calculated and experimental results of αd indicates that our EDM calculations are about 3\% accurate which in combination with the measured value of 199Hg EDM yield limits for the T-PT coupling constant CT < 2.31 × 10-9 and the NSM S<1.55 × 10-12|e|fm3. From this limit of S and the latest nuclear structure calculation, we get improved limits for the strong CP violating parameter θQCD < 2.12 × 10-10 and the combined up and down quark chromo-EDMs (-0.004 du + 0.020 dd) < 1.15 × 10-27 |e| cm.