C2H3D—Some important features of the valence region: Interpretation of the Fermi doublet ν1 and ν2 + ν12; rotational and centrifugal distorsion parameters for the ν5, ν2 + ν3 and ν9 levels

The ν 1 + ν 3 and the ν 1 + ν 2 + ν 1 4 + ν -1 5 combination bands of 13 C 2 H 2 at 6521.9 and 6535.1 cm -1 , respectively, are studied with diode laser spectroscopy. Line center wavelengths have been determined with 0.00012-nm standard uncertainty up to J = 40 for ν 1 + ν 3 and up to J = 25 for ν 1

The effective operator approach is applied to the calculation of both line positions and line intensities of the 13 C 16 O 2 molecule. About 11 000 observed line positions of 13 C 16 O 2 selected from the literature have been used to derive 84 parameters of a reduced effective Hamiltonian globally d

The high resolution infrared spectrum of 13 CH 3 I in the region of the fundamental bands n 1 (A 1 ) and n {1 4 (E) near 3000 cm 01 have been studied in detail with an effective resolution better than 0.0040 cm 01 . In addition to these fundamentals, an overtone band 2n 0 5 and a PAPE band n 3 / n

The spectrum of \(\mathrm{CH}_{2} \mathrm{D}_{2}\) has been recorded with a Fourier transform Bruker IFS HR spectrometer with a resolution of \(0.003 \mathrm{~cm}^{-1}\). From 4200 lines recorded in the \(900-1550 \mathrm{~cm}^{-1}\) region, 861 have been assigned to \(\nu_{4}\left(A_{1}\right), 954