The far-infrared laser magnetic resonance spectrum of vibrationally excited C2H

LMR spectra of vl&ationaUy excited OH radicals hake beea detected at 79.1 and 78.4 pm in IeveIs v = 1.2 and 3. The spectr;l ha=.? been assiged to the fine-structure transition %I,,

The gas phase spectrum of the C 2 H radical in the region between 3191 and 3342 cm 01 has been studied using a Faraday LMR spectrometer with a CO overtone laser. The C 2 H molecules were produced in an electric dc glow discharge of normal type containing a mixture of helium, acetylene, and hydrogen.

Pure rotational spectra of \(\mathrm{CF}\) in the \(v=1\) level of both \({ }^{2} \mathrm{II}_{3 / 2}\) and \({ }^{2} \mathrm{II}_{1 / 2}\) components of the ground electronic state have been observed by far-infrared laser magnetic resonance (FIR LMR) spectroscopy at 11 wavelengths between 337 and \

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