Theoretical determination of the dipole moment of carbon monophosphide, CP(X 2Σ+)

The dipole moment function for the X 'II state of NO is studied as a function of the completeness in both the one-and nparticle spaces. Einstein coefficients are presented that are significantly more accurate than previous tabulations for the higher vibrational levels. The theoretical values give co

The spin-caupled VB Theory is applied to the dipole moment function p(R) 01 LiH(X'Z\*) A series of calculations is reponed (1.7%. 127 and 188 spatial contigurauons) wluch demonslrates tie rapid convergence of thus properly onto thal given by aaurate MO CI wavefuncrions. The binding is essentially du

## Recent experiments by Bergeman and tire led to a dipole moment of l&l = 1 .lO k 0.03 D for the v = 3 vibrational level of the A\* C' stzte of NO, whereas conflgxation interaction (CI) stud& by Green led to p = 0.39 D (N+O-), a serious discrepancy. We report herein ab initjo generalized valence

The electric dipole transition moments of the He; molecular ion between its two lowest 'X: states and its first six excited %+ states are computed at various internuclear distances between 0.8 and 4.0 a,. The results are obtained with two different A0 ba8sis sets at the multireference CI level of tr