Laser excitation spectroscopy of the B2∑ - X2∑ transition of the CaH molecule

The B 2~\*-X 22\* transition of CaOH has been exammed by the technique of dye laser excitation spectroscopy. The rotational structure of the 000-000 and 100-100 bands \has determined.

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

The spectrum of the B \*2 + X\*X transition of gaseous CaH appears in the orange wavelength region with the dominating band heads of the P, and P2 branches belonging to the (0,O) band at 6328 and 6389 A. A time-resolved experiment has been performed on several vibrational levels of the low lying B\*

The (0 -0) band of the B ˜2A 1 -X ˜2A 1 transition of CaOCH 3 at 565 nm has been recorded and analyzed at Doppler limited resolution (FWHM ϭ 0.005 cm Ϫ1 ). The molecule was generated using a laser ablation/molecular beam source in which a solid calcium rod was ablated and a mixture of argon seeded w