Radiofrequency, Microwave, Submillimeter-Wave, and High-Resolution Infrared Spectra of thev6= 1 Vibrational State of CDF3

The n 2 (n 0 Å 337.796 4 cm 01 ) and n 4 bands (n 0 Å 262.994 2 cm 01 ) of AsF 3 have been studied by FTIR spectroscopy with a resolution of ca. 3 1 10 03 cm 01 . Several hot bands of n 2 were identified and analyzed. Rotational transitions with J Å 0 R 1 and 1 R 2 in the £ 2 Å 1 excited state and D

The present paper deals with the analysis of the microwave, millimeter-wave, and infrared spectra of 28 SiHF 3 in its ground, v 6 ϭ 1 and v 4 ϭ 1 excited states. The former was observed up to 1055 GHz leading to the determination of one octic centrifugal distortion constant, L J ϭ Ϫ0.0749(55) Hz. Fu

A high-resolution analysis of the {ν 2 , ν 3 } and {ν 4 , ν 6 } bands of the two isotopomers of chloryl fluoride F 35 ClO 2 and F 37 ClO 2 has been carried out for the first time using simultaneously infrared spectra recorded around 16 µm and 26 µm with a resolution of ca. 0.003 cm -1 and microwave

The high-resolution infrared spectrum of the 8 band of SO 2 F 2 ( as SF 2 ) centered at 887.2 cm Ϫ1 has been recorded with a resolution of 2.4 ϫ 10 Ϫ3 cm Ϫ1 . More than 8000 transitions of the C-type band with ⌬K a ϭ Ϯ1 (and in addition some ⌬K a ϭ Ϯ3 transitions) have been assigned. Microwave and m

The m AE1 3 perpendicular band of 14 NF 3 (m m 0 ¼ 907:541 cm À1 ) has been studied with a resolution of 2.5 Â 10 À3 cm À1 , and 3682 infrared (IR) transitions (J max ¼ 55, K max ¼ 45) have been assigned. These transitions were complemented by 183 millimeterwave (MMW) rotational lines (J max ¼ 25, K