Structure of C3S studied by pulsed-discharge-nozzle Fourier-transform microwave spectroscopy

The rotational spectrum of a short-lived free radical, HCCO, has been observed by using a Fabry-Perot-type Fourier-transform microwave spectrometer combined with a pulsed-discharge nozzle. \(\mathrm{HCCO}\) has been produced by a discharge of a mixture of \(\mathrm{C}_{2} \mathrm{H}_{2}\) and \(\mat

The first-order Stark effect in thcJ = 4 -3, K = 1 transition of the weakly bound dimer H3P...HC"N hasbeenobeserved and n:cosured by pulsed-nozzle Fourier-transform microwavespcctroscopy under the selection rules AM = 0 and AM= 2 1. The electric dipole moment p = 4.046(47) D determined for H3P...HC"

The hyperfine structure of the \(J=1 \leftarrow 0\) rotational transition of \(\mathrm{CuCl}\) as well as the \(J=\) \(3 \leftarrow 2,2 \leftarrow 1\). and \(1 \leftarrow 0\) rotational transitions of \(\mathrm{CuBr}\) in the \(v=0\) vibrational level have been investigated using a microwave Fourier