High-Resolution Real Time Laser Absorption Spectroscopy CIO A2Π-X2Π

The laser excitation spectrum of the Br,+ molecular ion was observed at rotational resolution for the first time, with the ions being generated by Penning ionization. In contrast to Cl: and F2+ but in agreement with recent theoretical work, no vibrational or rotational perturbations are observed. Th

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.

The high-resolution transient infrared spectrum of X 2 P CCl near 12.2 mm was measured by diode laser absorption spectroscopy following 193 nm excimer laser photolysis of CHClBr 2 . Many lines in the £ Å 1-0, 2 R 1, 3-2, 4-3, and 5-4 bands for C 35 Cl were identified in addition to lines in the firs

A new method for ion spectroscopy is introduced which is particularly useful for polyatomic ions. The ions are mass selected, and spectroscopically analyzed by a pulsed dye laser employing photofragment detection subsequent to absorption. The sensitivity of this apparatus permits the measurement of

The A 2 -X 2 + (0,0) band of ZrN between 5620 and 5890 A has been studied using laser polarization, laser-induced fluorescence, and wavelength-resolved fluorescence spectroscopy. All the 12 branches expected from a 2 -2 + transition have been observed and assigned. Both nondegenerate and degenerate