High Resolution Laser Spectroscopy of H2at 86–90 nm

The electronic spectrum of cobalt monochloride has been investigated from 415 to 725 nm using a laser-ablation/molecularbeam laser-induced fluorescence spectrometer. Two separate electronic systems with origins near 483.3 and 470.3 nm were observed. Data have been recorded for these two transitions

The A 2 ⌸-X 2 ⌺ ϩ transition of 174 Yb 35 Cl and 172 Yb 35 Cl has been rotationally analyzed for the first time. Doppler-limited laser excitation spectroscopy with selective detection of fluorescence was used to obtain spectra of the 0 -0 and 1-0 bands with a measurement accuracy of approximately 0.

High-resolution laser excitation spectra have been obtained for the 0-0, 1-1, and 0-1 bands of the B 2 + -X 2 + transition of YbCl and a rotational analysis has been performed on the 174 Yb 35 Cl and 172 Yb 35 Cl isotopomers. Comparison of the spin-rotation constant, γ , for the B 2 + state with the

We report the Stark behavior of 31 FIR laser lines of CH 3 18 OH optically pumped by a CO 2 waveguide laser. We observe various behaviors for different laser lines: power decrease, power enhancement, shifting and splitting of the laser lines, or no effect at all. Since the observed Stark line shapes

High resolution infrared spectra of the n 5 and n 10 bands of C 2 F 6 in a supersonic jet have been measured using a diode laser spectrometer. The well resolved vibration-rotation lines of these two bands were obtained. The spectra were analyzed using a standard Hamiltonian for a prolate symmetric r