Theoretical dipole moment function of the X1Σ+ state of HI

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

We have measured the dtpole moment of NaH m several vlbrattonal levels Oi the A ' Cstate. Elecrnc-fiela-mduced quantum beats v.ere observed after puked laxr ewxatlon of a smgle rotat1onaJ R(0) transttlon. From the beat irequencies the followng dtpole momentj wre derived ~~2 = 6.58 (13),rt3 = 7.01 (1

Stark effect in the hyperfine structure of rotational transitions of HI and HBr in the submillimeter ivavelength region \vas investigated. With the value of the electric dipole moment of OCS as calibmnt: UK%!) = 0.71512(~~ D we obtained: u(II~~~II = 0.4477(S) D: LL(H73Br) = 0.8280 (6) D: p(HSIBr) =