Ab initio calculations of radiative transition probabilities in the X1Σ+ ground state of the NO+ ion

The potential energy curves, dipole, quadrupole, octopole and hexadecapole moment functions of the ground X 'Z+ state of NO+ have been calculated at Hartree-Fock, CASSCF, MR-CI and MP2 levels using a [ Ss6p3d] basis set In addition, dipole polansablhtles have also been calculated at the HF and MP2 l

Calculations using large atomic natural orbital (ANO) basis sets and high levels of correlation treatment are employed to determine the radiative lifetime for the t= I-5 levels of the X 'Z+ state ofNO+. The theoretical lifetimes, which agree well with prewous theoretical estimates, are estimated to

Llcctnc dlpole moment functions and radiahre tr;msiuon rates haw been calculated ior the X '~+state of BF and the Y z~\* swc oi BP irom MC SCF uavefunctlons. Both ale prcdickd to be strong emitters m the infrared. For BF\* the elcctromcally uvxed z~\* state. corrcspondmg to the coniigunuon lo' 2a'3

Transition moments for the quartet states of BeN are calculated at the multi-reference single and double excitations configuration interaction level using natural orbitals as one-particle basis and an extended set of 98 contracted Cartesian Gaussians. The large shift of = 1.2 u,, in the equilibrium