The high-resolution Fourier transform infrared spectrum of H3SiF near 2200 cm−1: Rovibrational analysis of the fundamentals ν1 and ν4 and their perturbers 3ν6±1 and 3ν6±3

A high-resolution FT infrared spectrum of H 3 SiF (resolution 0.0024 cm Ϫ1 ) in the region 620 -1130 cm Ϫ1 was measured and used to analyze the fundamental bands 2 ( A 1 ), 990.851 cm Ϫ1 ; 3 ( A 1 ), 875.011 cm Ϫ1 ; 5 (E), 962.213 cm Ϫ1 ; and 6 (E), 729.528 cm Ϫ1 . A total number of 7241 transition

The Fourier transform infrared spectrum of H3SiI has been recorded in the nu1/nu4 region from 2075 to 2315 cm-1 at an optical resolution of 2.3 x 10(-3) cm-1. The nu1/nu4 fundamental bands and the (nu1 + nu3) - nu3/(nu4 + nu3) - nu3 hot bands have been rotationally investigated. Numerous local pertu

The \(\nu_{2}\left(A_{1}, 710.157 \mathrm{~cm}^{-1}\right)\) and \(\nu_{5}\left(E, 701.717 \mathrm{~cm}^{-1}\right)\) fundamental bands of \(\mathrm{D}_{3}{ }^{28} \mathrm{SiF}\) have been studied by FTIR spectroscopy with a resolution of \(2.4 \times 10^{-3} \mathrm{~cm}^{-1}\). We assigned 1648 li

The very weak bands nu1 + 2nu2 + 3nu3 and 4nu1 + nu3 of 16O3 have been observed for the first time, using the Fourier transform spectrometer (FTS) of Reims and the usual experimental setup providing a large product p x l of approximately 38 Torr x 36 m. The upper levels of these A-type bands which a