Towards the search of electron electric dipole moment: correlation calculations of the P,T-violation effect in the Eu++ cation

Abstract

Recently the Eu0.5Ba0.5TiO3 solid was suggested as a promising candidate for experimental search of the electron electric dipole moment. To interpret the results of this experiment one should calculate the effective electric field acting on an unpaired (spin-polarized) electrons of europium cation in the crystal because the value of this field cannot be measured experimentally. The Eu++ cation is considered in the paper in the uniform external electric field E ext as our first and simplest model simulating the state of europium in the crystal. We have performed high-level electronic structure correlation calculation using coupled clusters theory (and scalar-relativistic approximation for valence and outer core electrons at the molecular pseudopotential calculation stage that is followed by the four-component spinor restoration of the core electronic structure) to evaluate the enhancement coefficient K= E eff/E ext (where E ext is the applied external electric field and E eff is the induced effective electric field acting on an unpaired electron in Eu++). A detailed computation analysis is presented. The calculated value of K is -4.6.