A High-Resolution FT-IR Study of the Fundamental Bands ν6, ν10, and ν11 of trans-Glyoxal

The hot band system \(\nu_{9}+\nu_{11}-\nu_{11}, \nu_{10}+\nu_{11}-\nu_{11}\) in allene has been studied at a resolution of ca. \(0.0030 \mathrm{~cm}^{-1}\). The effect of rotational and vibrational \(l\)-type doublings has been analyzed in detail, and a number of vibrational and Coriolis type pertu

Using high-resolution Fourier transform spectra, a thorough analysis of the 14 c-type, 17 a-type, and 18 a-type bands of both 11 B 2 H 6 and 10 B 11 BH 6 has been carried in the 10.3-, 6.2-, and 8.5-m spectral regions, respectively. From this analysis a large set of precise ground state combination

The gas-phase IR spectra of the fundamental band \(\nu_{5}\) around \(3100 \mathrm{~cm}^{-1}\) and the \(a, b\)-Coriolis interacting band systen \(\nu_{4}, \nu_{6}\) around \(1300 \mathrm{~cm}^{-1}\) of \(\mathrm{N}_{2} \mathrm{H}_{2}\) have been recorded with a resolution of ca. 0.008 and \(0.005 \

High-resolution ( approximately 3 x 10(-3) cm-1) FTIR spectra of the planar SCF2 molecule have been recorded in the range of the four lowest-lying fundamentals nu2 (789.535 cm-1), nu3 (526.697 cm-1), nu5 (419.546 cm-1), and nu6 (623.187 cm-1). For each band 4500-7500 transitions have been assigned a

The gas-phase IR spectra of the a,b-Coriolis interacting band system n 4 ,n 6 around 950 cm 01 and the n 5 band around 2300 cm 01 of N 2 D 2 have been recorded with a resolution of ca. 0.005 and 0.007 cm 01 , respectively. In the n 5 and n 6 bands both a-and b-type components are observed. In n 4 th