First Observation of the ν17–ν4 Difference Bands of Diborane 10B2H6 and 11B2H6

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

Spectra of 10 B monoisotopic diborane, B 2 H 6 , have been recorded at high resolution (2-3 ϫ 10 Ϫ3 cm Ϫ1 ) by means of Fourier transform spectroscopy in the region 700 -1300 cm Ϫ1 . A thorough analysis of the 18 a-type, 14 c-type, and 5 symmetryforbidden band has been performed. Of particular inter

A total of 6071 transition wavenumbers of the 2 , 3 , 5 , and 6 fundamental bands of H 3 13 CF and 1689 frequencies of the rotational transitions in the v 2 ϭ 1, v 3 ϭ 1, v 5 ϭ 1, and v 6 ϭ 1 vibrational states have been fitted simultaneously by taking into account various Coriolis interactions, l-t

A total of 4892 transition wavenumbers of the 2 , 3 , 5 , and 6 fundamental bands of H 3 12 CF and 1469 frequencies of the rotational transitions in the v 2 ϭ 1, v 3 ϭ 1, v 5 ϭ 1, and v 6 ϭ 1 vibrational states have been fitted simultaneously by taking explicitly into account various Coriolis intera

The high resolution (0.002 cm ±1 ) FTIR spectra of the A 00 2 -fundamental bands m 8 and m 9 of 10 B 3 14 N 3 1 H 6 were investigated for the first time. Both fundamental bands show a typical parallel band structure, thus confirming the D 3h symmetry of the molecule under consideration. Whilst m 9 i

High-resolution, infrared absorption spectra of the 6 (asymmetric C-H stretch) and 2 2 (H-C-H symmetric bend overtone) bands of jet-cooled CH 2 F 2 are reported with a sub-Doppler resolution of ϳ0.002 cm Ϫ1 . More than 600 transitions were observed in the range of 3002-3036 cm Ϫ1 , of which 268 were