Line Intensities of 12C16O2 in the 1.2–1.4 μm Spectral Region

branches of the 5 perpendicular band. These lines with J values ranging from 1 to 23 and K from 0 to 9 (K Յ J) are located in the spectral range 1416 -1573 cm Ϫ1 . The collisional halfwidths are obtained by modeling each spectral line with a Voigt and a Rautian profile. The noncorrelated Rautian mod

The strengths of 100 lines in the 2n 3 band of 16 O 12 C 32 S have been measured at high resolution in the spectral range 4069-4118 cm 01 , using a tunable difference-frequency laser spectrometer. These intensities were obtained by fitting Voigt profiles to the measured shapes of the lines. The vibr

We measured 305 absolute line intensities in the ν 1 + ν 3 ( + u )-0( + g ) band of 12 C 2 H 2 and 13 C 12 CH 2 and the bands of the main isotopomer, all observed near 1.5 µm. The absolute intensity of these bands are respectively 6.4882 (34), 0.12337 (10), 0.083746 (71), 0.58771 (28), and 0.32126

Using a stabilized diode-laser spectrometer, we have studied the line profiles of water vapor near 7185.59 cm -1 . With low pressures of pure gas (≤1 Torr) in a White-type cell, we have deduced the line intensities using the Voigt profile. This study shows clear differences between experimental and

The effective operator approach has been applied to the calculation of line intensities of 12C16O2. Using the eigenfunctions of our reduced effective Hamiltonian (1992, J. Mol. Spectrosc. 156, 48-64) the experimental line intensities of cold and hot bands lying in the regions of 15, 10, and 5 μm hav

Eight emission spectra of CO 2 ϩ N 2 mixtures excited by dc discharge were recorded using a Fourier Transform Spectrometer (Bruker Spectrometer 120HR) with a resolution of 0.003 cm Ϫ1 in the 4.5-m region. Results (wavenumbers, band centers, spectroscopic constants) concerning 13 new vibrational tran