Theb1Σ+g–X3Σ−g(3, 0) Band of16O2and18O2

The b1Sigma+g-X3Sigma-g (1,0) band of 16O17O, 16O18O, 18O2, 17O18O, and 17O2 isotopomers was investigated employing the technique of cavity-ring-down spectroscopy. More than 400 transition frequencies of magnetic dipole lines were determined with a typical uncertainty of 0.01 cm-1. This work results

The fine and hyperfine structure of the (0, 0) band of the B 2 ⌺ u ϩ -X 2 ⌺ g ϩ system of 14 N 2 ϩ has been measured using fast-ion-beam laser spectroscopy. Rotational transitions with 0 Յ NЉ Յ 35 were recorded with a linewidth of ϳ0.0064 cm Ϫ1 full-width-half-maximum, allowing complete resolution o

In the emission spectrum of the Ga 16 O molecule, the 0 -0 and 1-0 bands of the B-X system have been rephotographed by means of conventional high-resolution spectroscopy. Clear resolution on the rotational structure near the band origins made it possible to perform reanalysis of the bands and derive

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Emission spectra of the b 1 ⌺ ϩ (b0 ϩ ) 3 X 3 ⌺ Ϫ (X 1 0 ϩ , X 2 1) and a 1 ⌬(a2) 3 X 2 1 transitions of AsI have been measured in the near-infrared spectral region with a Fourier-transform spectrometer. The arsenic iodide radicals were generated and excited in a fast-flow system by reaction of arse