The millimeter wave rotational spectrum of 2H-azirine, NCH2 CH

The mm-wave rotational spectrum of 2-chloroacrylonitrile, \(\mathrm{H}_{2} \mathrm{C}-\mathrm{CCICN}\), was measured in the frequency region \(160-350 \mathrm{GHz}\) with a \(\mathrm{mm}\)-wave BWO spectrometer. The spectrum is dominated by prominent oblate-type bands consisting of overlaps of low-

The ground state rotational spectrum of chloroacetonitrile, \(\mathrm{CH}_{2} \mathrm{ClCN}\), was measured over the frequency region 164-332 \(\mathrm{GHz}\) with a mm-wave BWO spectrometer. Frequency measurements on a broad range of transitions were used to determine spectroscopic constants for \(

The a-type rotatronal spectrum of isocyanamide was observed in the frequency range 147-300 GHz. Ether extraction n of the hydrolysis products of diazomethj llithmm was employed to isolate the isocyanamide. 53 rotational lines were assigned to molecules in theground vibrational state (NH&wersion stat

## Four highdrotational lines in the ground state of Ha0 and one in the y= 2 state have been measured in the laboratory. One of them, 174,13-167.1~ in the ground state, is predicted to be an interstellar maser line under certain physical conditions. Following the laboratoty measurements, the 17 ~,