Abstract
The electronic structure and spectroscopic properties of a manifold of states of a new molecular species, BeAs, have been investigated theoretically at the complete active space self-consistent field/multireference single and double excitations configuration interaction (CASSCF/MRSDCI) approach, using the aug-cc-pV5Z-PP basis set for arsenic, which includes a relativistic effective core potential, and the cc-pV5Z set for beryllium. Potential energy curves of five quartet and eight doublet (Λ + S) states correlating with the five lowest-lying dissociation limit are constructed. The effect of spin–orbit coupling is also included in the description of the ground state, and of the doublet states correlating with the second dissociation channel. Dipole moment functions and vibrationally averaged dipole moments are also evaluated. The similarities and differences between BeAs, BeP, and BeN are analyzed. Spin–orbit effects are small for the ground state close to the equilibrium distance, but avoided crossings between Ω = 1/2 states, and between Ω = 3/2 states changes significantly the Λ + S curves for the lowest-lying doublets.
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