Terahertz Spectroscopy of the Amidogen Radical, NH2

The absorption spectrum of NH / 2 has been recorded continuously between 3500 and 2900 cm 01 with a difference frequency laser spectrometer along with the velocity modulation technique. The molecular ions were produced in the positive column of an ac glow discharge with a gas mixture of N 2 /H 2 /He

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

The gas-phase far-infrared absorption spectra of the NH 2 , NHD, and ND 2 radicals have been observed in the 51-366 cm 01 region with a high-resolution Fourier transform spectrometer. The NH 2 radical was generated in a multipletraversal absorption cell by a dc discharge in an NH 3 and Ar mixture. A

Eighty spin-rovibronic transitions in \(\mathrm{NH}_{2} \dot{A}^{2} \mathrm{~A}_{1}(0,10,0)^{K_{a}=1} \leftarrow \tilde{X}^{2} B_{1}(0,0,0)^{K_{a}=0.2}\) and \(\dot{A}^{2} A_{1}(0\). \(12,0)^{K_{a}-0} \leftarrow \hat{X}^{2} B_{1}(0,2,0)^{K_{a}-1}\) have been observed in the range \(28810-29220 \math

The potential energy surface for the [ChN]" system has been investigated using ab initio molecular orbital calculations with large, polarization basis sets and incorporating valence-electron correlation. Two [CH,N]" isomers can be distinguished: the well known methylamhe radical cation, [CHmZ]'', an