Hot Bands in the ν6 + ν9 and ν7 + ν8 Band Systems of Dicyanoacetylene

Applying an IRIR double resonance technique in a seeded molecular jet, a rotationally cooled hot band spectrum of ethane has been recorded in the region of the C-H stretching fundamental n 7 near 3000 cm 01 . The observed hot bands are assigned to the two perpendicular components of the n 7 / n 9 (A

The perpendicular hot bands n and n 4 / 2n {2 8 0 n { 8 (E-E) occurring in the region of the n 7 fundamental of CH 3 NC (1050-1250 cm 01 , cf. J. PlıB va et al., J. Mol. Spectrosc. 173, 423-430, 1995) have been analyzed. Eleven subbands of the E-E component and 10 subbands of the A 1,2 -E component

High-resolution FTIR spectra of 1,1,1-trifluoroethane (HFC-143a) have been recorded in the region from 1370 to 1470 cm Ϫ1 with an unapodized resolution of 0.0016 cm Ϫ1 at room temperature and of 0.004 cm Ϫ1 at 183 and 100 K. The two main infrared active bands of A 1 symmetry have been shown to be 2

The vibration-rotation spectrum of methyl isocyanide \(\left(\mathrm{CH}_{3} \mathrm{NC}\right)\) has been recorded with the aid of a high-resolution Fourier transform spectrometer in the region \(1370151560 \mathrm{~cm}^{-1}\) containing the perpendicular band of the fundamental vibration \(v_{6}\)

A first full rotational analysis of high-resolution gas-phase spectra of the lowest frequency fundamental bands, n 9 and n 12 , of formaldoxime, CH 2 NOH, has been completed. In addition the weak n 7 fundamental has been analyzed at medium resolution, and the complex structure of the bands in the n