Rotational Spectrum of the AsH2 Radical in Its Ground State, Studied by Far-Infrared Laser Magnetic Resonance

The rotational spectrum of AsH in its metastable a 1 D state has been recorded using a far-infrared laser magnetic resonance spectrometer. The AsH radical was produced inside the spectrometer by the reaction of arsine (AsH 3 ) with fluorine atoms. Hyperfine splittings from both 75 As and 1 H nuclei

The infrared spectrum of the AsO radical in its \({ }^{2} \mathrm{Il}\) ground state has been measured using a diode laser spectrometer. Rovibrational transitions of the fundamental and a number of hot bands were measured in both \({ }^{2} \Pi_{3 / 2}\) and the \({ }^{2} I_{1 / 2}\) substates to an

The ground state rotational spectrum of \(\mathrm{CHF}_{2} \mathrm{Cl}\) has been observed and analyzed in the frequency region \(70-1280 \mathrm{GHz}\). Transitions with values of \(J\) up to 80 have been observed and the centrifugal distortion analysis of the spectrum has been performed using both

Bending vibration-rotation transitions between the (010) 2 ⌺ Ϫ and (000) 2 ⌸ r vibronic states of the CCN radical in its ground electronic state have been observed using far-infrared laser magnetic resonance (FIR LMR) spectroscopy. Thirteen FIR laser lines were used to record 769 resonances. The LMR