Absolute Intensities of Unperturbed Lines in the ν2 and ν5 Bands of 12CH3F

The absolute strengths of 93 lines belonging to the nu2 and nu5 bands of methyl fluoride were measured in the range of 1416-1503 cm-1 using a tunable diode-laser (TDL) spectrometer. These experimental line intensities were obtained from the equivalent width method. The intensities were analyzed with

The absolute intensities of 188 vibration-rotational spectral lines of transitions to the vibrational states \(\nu_{2}=1\) and \(\nu_{5}=1\) of \({ }^{12} \mathrm{CH}_{3} \mathrm{~F}\) have been measured with a diode laser. By taking into account the mixing of the rovibrational wavefunctions of both

Infrared absolute line intensities of the n 3 band of 12 CH 3 F have been measured around 9.5 mm using a diode-laser spectrometer. These line strengths were obtained from the equivalent width method and, for a few lines, by fitting a Rautian profile to the measured shape of the lines. From these res

High resolution Fourier transform absorption spectra of the 14 N 16 O 2 molecule recorded in the 2630-3510 cm 01 spectral region have been analysed and lines of the n 1 / n 3 band of this molecule have been assigned for K a values ranging from 0 to 10 and N values up to 55. The spin-rotation energy

New experimental data on the ν 1 and ν 3 bands of 16 O 3 improving the value of absolute line intensities have been obtained. The intensities of 295 lines have been measured with an average accuracy between 2.5% and 3% and the rotational expansion of the transition moment operators for the ν 1 and ν