Millimeter- and Submillimeter-Wave Rotational Spectra of Rare Hydrogen Sulfide Isotopomers

The millimeter-and submillimeter-wave spectrum of 13 CD 2 F 2 present in natural abundance in methylene fluoride-d 2 (CD 2 F 2 ) has been measured in the region 230-380 GHz. The spectrum was recorded using a frequency-modulated millimeter-and submillimeter-wave spectrometer. More than 200 rotational

Pure rotational transitions of the sulfur monoxide isotopomers 32 S 16 O, 34 S 16 O, and 32 S 18 O were measured in different vibrational states of the electronic states a 1 D and b 1 S / with the Cologne terahertz spectrometer in the submillimeterwave region between 300 and 1070 GHz. The new lines

The pure rotational spectrum of the deuterated ethynyl radical, CCD, in the vz = 1' and uz=2' states was observed in the mlllimeter-and submillimeter-wave region, yielding further information on the vibronic mteraction between the % %+ and A % states. Precise molecular constants have been determined

New millimeter-wave and microwave measurements for CH 3 OD have been combined with previous literature data and with an extended body of Fourier transform far-infrared observations in a full global analysis of the first two torsional states (v t ϭ 0 and 1) of the ground vibrational state. The fitted