Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5416059 | Journal of Molecular Spectroscopy | 2006 | 15 Pages |
Abstract
Room temperature Lorentz air-broadened halfwidth and pressure-induced air-shift coefficients were measured for 1011 transitions in the octad region of methane between 4100 and 4635 cmâ1. These measurements were made by analyzing 10 laboratory absorption spectra recorded at 0.011 cmâ1 resolution using the McMath-Pierce Fourier transform spectrometer located at the National Solar Observatory on Kitt Peak, Arizona. The spectra were obtained using two absorption cells with path lengths of 2.05 and 150 cm. The total sample pressures ranged from 99 to 400 torr with CH4 volume mixing ratios of 0.01 in dry air. The spectral line parameters were retrieved using a multispectrum nonlinear least squares technique. Transitions belonging to five bands of the octad polyad were observed, namely ν2 + 2ν4, ν1 + ν4, ν3 + ν4, 2ν2 + ν4, and ν2 + ν3. The numbers of measurements by bands are: 33 for ν2 + 2ν4, 180 for ν1 + ν4, 635 for ν3 + ν4, 33 for 2ν2 + ν4, and 130 for ν2 + ν3. Transitions with rotational quantum number J up to 16 are included in the analysis. The measured width and shift coefficients vary according to the tetrahedral symmetry species and the rotational quantum numbers of the transitions. The retrieved parameters from this study are compared with prior results, in part to estimate absolute accuracy and determine the extent of vibrational dependence of widths and shifts.
Related Topics
Physical Sciences and Engineering
Chemistry
Physical and Theoretical Chemistry
Authors
Adriana Predoi-Cross, Marco Brawley-Tremblay, Linda R. Brown, V. Malathy Devi, D. Chris Benner,