Absolute line intensities of the 5-μm ν5-fundamental band of diacetylene

A tunable diode laser spectrometer was used to perform measurements of absolute line intensities for 20 transitions in the vg-fundamental of propyne centered at 15.5pm. From these data, the vibrational band-strength SE was significantly determined to be SE= 196.8 f 6.0 cm m2 atm-' at 297 K. These re

Infrared absolute line intensities of the nu6 band of CH3F have been measured around 8.5 μm using a diode-laser spectrometer. These line strengths were obtained by the equivalent width method and, for 13 lines, by fitting a Rautian profile to the measured shape of the lines. From these results, we h

Strengths of individual lines in the \(\nu_{6}\) degenerate fundamental at \(10 \mu \mathrm{m}\) of methyl chloride have been measured at room temperature using a diode laser spectrometer. From these measurements we have determined by a linearized fit two significant intensity parameters, namely, th

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

Fourier transform spectra have been obtained at 296 K at a resolution of 0.002 or 0.004 cm -1 depending on the pressure range. Line positions and intensities of CH 3 79 Br and CH 3 81 Br belonging to the fundamental band ν 6 were measured and analyzed between 890 and 1080 cm -1 . A total of 2896 (28