Far-Infrared Laser Stark Spectroscopy of PH3

We have constructed a far-infrared (FIR) laser sideband spectrometer for carrying out pure rotational spectroscopy of fundamental radicals and ions in the FIR or "terahertz" frequency region. The tunable FIR source is obtained by sideband generation of a carbon dioxide laser-pumped FIR laser with a

Far-infrared laser magnetic resonance (FIR-LMR) spectra of \(\mathrm{CH}_{2}{ }^{35} \mathrm{Cl}\left(\dot{X}^{2} B_{1}\right)\) observed at three FIR wavelengths in the range \(450 \mu \mathrm{m} \leqslant \lambda \leqslant 750 \mu \mathrm{m}\) have been analyzed and assigned. The spectra were obta

The high resolution Fourier transform far infrared spectrum of the torsion rotation band of CH 3 OD has been recorded in the range 20-350 cm 01 at a resolution of 0.002 cm 01 . The spectrum shows splitting of the lines due to strong torsional, rotational, and vibrational interactions in the molecule

The pure rotational absorption spectrum of the \(\mathrm{SH}\) radical in the ground \({ }^{2}\) II state was observed by a high-resolution Fourier transform spectrometer. The radical was generated by a dc discharge in an \(\mathrm{H}_{2} \mathrm{~S}, \mathrm{H}_{2}\), and \(\mathrm{He}\) mixture. R

Far-infrared laser magnetic resonance (FIR-LMR) spectra due to the CH 2 F radical have been recorded on seven laser lines at wavelengths between 301 and 568 m. Observed resonances were assigned to fine and hyperfine components of pure rotational transitions of CH 2 F in the ground vibrational state