A High-Resolution Study of the B2Σ+ − X2Σ+ Transition of the PN+ Molecular Ion

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

Ultraviolet emission spectrum of the B 2 ⌺ ϩ (v ϭ 0)-X 2 ⌺ ϩ (v ϭ 0) transition of the PN ϩ ion has been observed at a resolution of 0.05 cm Ϫ1 by a Fourier transform spectrometer. The rotational analysis led to a great improvement of rotational constants in the B 2 ⌺ ϩ (v ϭ 0) and X 2 ⌺ ϩ (v ϭ 0) s

The velocity modulation laser absorption technique was employed to obtain the spectrum of the \((0,1)\) band of the \(B^{4} \Sigma_{u}^{-}-X^{4} \Sigma_{g}^{-}\)system of \(C_{2}^{+}\). These states were rotationally analyzed and a study of the \(B^{4} \Sigma_{u}^{-}-2^{2} \Pi_{u}\) interaction was

Emission spectra of the b 1 ⌺ ϩ 3 X 3 ⌺ Ϫ and a 1 ⌬ 3 X 3 ⌺ Ϫ transitions of SO in the near-infrared spectral region were studied at high spectral resolution with a Fourier-transform spectrometer. The 0 -0 band of the b 3 X system was measured at high signal/noise and four magnetic dipole branches w

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.

A high-resolution excitation spectrum of gaseous YS has been recorded by laser excitation spectroscopy in a supersonic molecular beam. The YS molecules were produced by the reaction of laser-ablated yttrium atoms with CS 2 . The (0, 0) band of the A 2 P 1/2 -X 2 S / transition near 750 nm was rotati