Ab initio study of parity and time-reversal violation in laser-coolable triatomic molecules

Abstract

Electronic structure enhancement factors of simultaneous parity and time-reversal violation (P,T-violation) caused by an electric dipole moment of the electron (eEDM) and scalar-pseudoscalar nucleon-electron current (SPNEC) interactions are reported for various metal mono-hydroxides, several of which are considered laser--coolable and promising candidates for an eEDM measurement. Electronic structure enhancements are calculated ab initio within zeroth order regular approximation (ZORA) for CaOH, SrOH, BaOH, RaOH and YbOH. Scaling behavior with respect to nuclear charge numbers and the ratio of enhancement factors for both discussed sources of P,T-violation are analyzed, which are crucial to obtain stringent bounds on parameters for new physics from experiments.