Direct observation of strong diabatic behavior in the n = 3 3∑+g states of molecular hydrogen

We have generated an ab initio near-equilibrium three-dimensional potential energy function for the X3X, state of N: using highly correlated multireference configuration interaction wavefunctions. The nuclear motion problem has been solved variationally and the vibrational energy levels up to 3000 c

L. WOLNIEWICZ Institule of Physics, Nicholas Copernicus University, 87-100 Torun, Poland \({ }^{1}\); and Laboratory for Physical Chemistry ETH-Zentrum, CH-8092 Zurich. Switzerland The Born-Oppenheimer energies and adiabatic corrections have been computed for the \(I\) and \(R^{\prime} \Pi_{g}, J\)

Using the intermodulated fluorescence technique, we have observed forbidden and crossover transitions in the op tical spectrum from which the hyperfine couplings of the upper and lower states can be evaluated separately\_ For the y" = Q, f 1 = 13 sublevel of the XrCi electronic state &?a is -2452 +\

## IN HONOR OF PROF. DR. HANS B ÜRGER FOR HIS MANY VALUABLE CONTRIBUTIONS TO SCIENCE The υ 6 = 2 vibrational state of the main isotopomer of trifluorosilane, 28 SiHF 3 , has been investigated in the centimeter-and millimeter-wave ranges. Rotational spectra following the J = 1, k = l = 0 selection