Electron correlation and nuclear charge dependence of parity-violating properties in open-shell diatomic molecules

Abstract

The scaling of nuclear spin-dependent parity violating effects with increasing nuclear charge Z is discussed in two series of isovalent open-shell diatomic molecules. The parameter Wa characterising the strength of parity violation in diatomic molecules is calculated in the framework of the zeroth-order regular approximation (ZORA) and found to be in good agreement with the R(Z) Zk scaling law derived for atoms in which R(Z) represents a relativistic enhancement factor. The influence of electron correlation is studied on the molecular level, with spin-polarisation effects being conveniently accounted for by a previously established approximate relation between the hyperfine coupling tensor and Wa. For high accuracy predictions of parity violating effects in radium fluoride the necessity for systematically improvable correlation calculations is emphasised.