Atoms-in-molecules calculation of dipole moments of the lowest Σ and Π states of LiH

The dipole moment of the lowest II bending state of \((\mathrm{HCN})_{2}\) has been determined by tunable far-infrared Stark spectroscopy to be 6.023(31) D. This represents a reduction in dipole moment of \(0.54(5)\) D relative to the ground state, which is over five times too large for simple harmo

The potential energy curves, dipole, quadrupole and octopole moments and dipole polarisabilities have been calculated at CASSCF level using a [ 8s6p3d] basis for the ground X 2~ + state of CO + as a function of internuclear distance. In addition the potential energy curves, as well as the dipole, qu

Explicitly correlated wavefunctions are used to compute adiabatic potential energy curves and electronic dipole transition moments for a number of triplet Sigma and Pi states of the hydrogen molecule in a wide range of internuclear distances. The potential energy curves are more accurate and complet

A multiconfiiurattlon version of the twodimensional\_ fully numerical Hartree-rock method is presented and applied to H, and LiH. In mmbination with CAS SW LCAO results, a dipole moment of 2.310(4) au is obtained for L.W(V = 0, J = 1) (expt 2.3141(2)).

The lowest quartet states \(a^{4} \Pi\) and \(b^{4} \Sigma^{-}\)of the antimony monoxide radical have been observed in LIF excitation spectra measured with a pulsed dye laser in the wavelength range \(335-640 \mathrm{~nm}\). Transitions from the \(X_{1}^{2} \Pi_{1 / 2}\) ground state to three spin-o