CP-violation sensitivity of closed-shell radium-containing polyatomic molecular ions

Abstract

Closed-shell atoms and molecules such as Hg or TlF provide some of the best low-energy tests of hadronic CP-violation which is considered to be a necessary ingredient to explain the observed excess of matter over antimatter in our universe. CP-violation is, however, expected to be strongly enhanced in octupole deformed nuclei such as 225Ra. Recently, closed-shell radium-containing symmetric-top molecular ions were cooled sympathetically in a Coulomb crystal [M. Fan et al., Phys. Rev. Lett. 126, 023002 (2021)] and shown to be well-suited for precision spectroscopy in the search for fundamental physics [P. Yu and N. R. Hutzler, Phys. Rev. Lett. 126, 023003 (2021)]. In closed-shell molecules hadronic CP-violation contributes to a net electric dipole moment (EDM) that violates parity and time-reversal symmetry (P,T), which is the target of measurements. To interpret experiments, it is indispensable to know the electronic structure enhancement parameters for the various sources of P,T-violation which contribute to the net P,T-odd EDM. In this paper we employ relativistic Hartree--Fock and density functional theory calculations to determine relevant parameters for interpretation of possible EDM measurements in RaOCH3+, RaSH+, RaCH3+, RaCN+, and RaNC+ and perform accurate relativistic coupled cluster calculations of the Schiff moment enhancement in RaSH+ to gauge the quality of the density functional theory approach. Finally, we project to bounds on various fundamental P,T-odd parameters that could be achievable from an experiment with RaOCH3+ in the near future and asses the complementarity of this experiment to experiments with Hg and TlF.

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