The Far-Infrared Inversion Transition of Vinylamine

The infrared spectrum of vinylamine, generated by pyrolysis of cyclobutylamine, has been investigated at low and high resolution. The rovibrational structure of the far infrared spectrum (0.002 cm Ϫ1 ) has been analyzed, and effective rotational and centrifugal distortion constants have been derived

We have measured the rotational spectrum of \(\mathrm{H}^{127} \mathrm{I}\) from 0.38 to \(4.58 \mathrm{THz}\left(13-153 \mathrm{~cm}^{-1}\right)\), encompassing the \(R(0)\) through \(R(11)\) rotational lines. using the \(\mathrm{CO}_{2}\) laser difference method for generating coherent far-infrare

## Abstract Flexible model results for the NH~2~ inversion in vinylamine are compared with microwave data published by __Lovas et al.__ [3]. The information available on the spacing of inversion levels is found to be sufficient to rule out a planar equilibrium structure. Shifts of rotational const

Electron-LO phonon and electron-electron transition rates are calculated for a three-level triple quantum well system to be employed as a laser operating in the far-infrared (30-300 µm) or terahertz (1-10 THz) region. The population ratio is determined from the ratio of the carrier lifetimes in leve