Torsion–rotation analysis of OH stretch overtone–torsion combination bands in methanol

We record double resonance spectra of the 4ν 1 band of jet-cooled 13 C-methanol using single rotational state selection in the ν 1 fundamental and subsequent promotion of the selected molecules to the fourth vibrational level. We then detect transitions to the final excited states by infrared laser

A global analysis of reported microwave (MW) millimeter wave (MMW), and Fourier-transform far-infrared (FTFIR) spectra of the CD3OH isotopic species of methanol has been carried out for the first two torsional states (nut = 0 below the barrier and nut = 1 straddling the barrier) of the ground vibrat

The absorption spectrum of methanol vapor has been recorded at room temperature from 3200 to 4200 cm Ϫ1 with a 1.24-M path-difference Fourier transform spectrometer. Over 10 000 transitions to the torsion-rotation states n, J, K of the OH stretching fundamental band 1 have been assigned, thereby gre

The \(\mathrm{CH}_{3}\) asymmetric stretching region of methanol vapor has been investigated between 2900 and \(3200 \mathrm{~cm}^{-1}\) with a \(1.25-\mathrm{m}\) maximum path difference Fourier transform spectrometer. Thirteen \(P\) branches and eleven \(R\) branches were assigned ( 13 series repr