Ab initio study of radium monofluoride, RaF, as a candidate to search for P- and T,P- violation effects

Abstract

Relativistic ab initio calculations have been performed to assess the suitability of RaF for experimental search of P- and T,P-violating interactions. The parameters of P- and T,P-odd terms of the spin-rotational Hamiltonian have been calculated for the 2 electronic ground state of RaF molecule. They include the parameter Wa, which is critical in experimental search for nuclear anapole moment and the parameters Wd and W SP required to obtain restrictions on the electric dipole moment of the electron and T,P-odd scalar-pseudoscalar interactions, respectively. The parameter X corresponding to the "volume effect" in the T,P-odd interaction of the 223Ra nuclear Schiff moment with electronic shells of RaF has also been computed. Spectroscopic and hyperfine structure constants for 223RaF and 223Ra+ have been computed as well, demonstrating the accuracy of the methods employed.