The AsO radical detected by infrared laser magnetic resonance

The N= l+ 0 rotational spectrum of tie free NH radical in its ground 'C-state has been meaxurcd with an opticallypumped laser mgnetic resonance spectrometer, operating at wavelengths nest 0.3 mm. The hyperfine structure constants bN = -17.3 2 1 hIHz, CN = 107.4 C 6 MHz, bH = 15.9 \* 1 hiHz and cH =

The infrared spectrum of the TeH radical in its \(X^{2} \Pi\) state has been recorded using an intracavity \(\mathrm{CO}\) laser magnetic resonance (LMR) spectrometer. Seven of the eight naturally occurring Te isotopomers were observed, with resonances originating from the first three vibrational le

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 \

m\_e PH radical has been detected by laser magnetic resonance spectroscopy at 118.6 urn in the rextion products when hydrogen atoms were passed aver red phosphorus. The spectra have been identified 3s the N = 4 4 S rotational trsnsition in the pound 'E-state and J' = 4 -+ 5 transition in the .'A sta