Far Infrared Spectrum of SO in the 3Σ and 1Δ Electronic States

The rotational spectrum of AsH in its metastable a 1 D state has been recorded using a far-infrared laser magnetic resonance spectrometer. The AsH radical was produced inside the spectrometer by the reaction of arsine (AsH 3 ) with fluorine atoms. Hyperfine splittings from both 75 As and 1 H nuclei

Pure rotational transitions of the sulfur monoxide isotopomers 32 S 16 O, 34 S 16 O, and 32 S 18 O were measured in different vibrational states of the electronic states a 1 D and b 1 S / with the Cologne terahertz spectrometer in the submillimeterwave region between 300 and 1070 GHz. The new lines

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 ground state rotational spectrum of \(\mathrm{CHF}_{2} \mathrm{Cl}\) has been observed and analyzed in the frequency region \(70-1280 \mathrm{GHz}\). Transitions with values of \(J\) up to 80 have been observed and the centrifugal distortion analysis of the spectrum has been performed using both

Large-scale CI calculations are carried out to obtain accurate potential energy surfaces for the . . . g 2 manifold (X 3 ⌺ g Ϫ , 1 1 ⌬ g , 1 1 ⌺ g ϩ ) of electronic states of NCN. Separation of the low-lying singlet states from the triplet ground state is computed in close agreement with the results