In search of the electron electric dipole moment: relativistic correlation calculations of the P,T-violation effect in the ground state of HI+

Abstract

We report the first results of ab initio relativistic correlation calculation of the effective electric field on the electron, Eeff, in the ground state of the HI+ cation. This value is required for interpretation of the suggested experiment on search for the electron electric dipole moment. The generalized relativistic effective core potential, Fock-space relativistic coupled cluster with single and double cluster amplitudes and spin-orbit direct configuration interaction methods are used, followed by nonvariational one-center restoration of the four-component wavefunction in the iodine core. The calculated value of Eeff by the coupled cluster method is Eeff=0.345× 1024Hz/e*cm. Configuration interaction study gives Eeff=0.336× 1024Hz/e*cm (our final value). The structure of chemical bonding and contributions to Eeff in HI+ is clarified and significant deviation of our value from that obtained in Ravaine etal Phys.Rev.Lett., 94, 013001 (2005) is explained.

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