Rotational Spectra of Isotopic Species of FCCCN and Its Molecular Structure

Frequencies of rotational transitions of XeH + and its isotopic species were measured in the 1-5 THz region with a highprecision far-infrared spectrometer using a tunable radiation source. Measured frequencies were analyzed together with previous microwave and infrared measurements to refine mass-in

The rotational spectra of HD 35 Cl + , H 2 35 Cl + , and H 2 37 Cl + were measured in the frequency region of 180 to 550 GHz with a source-modulated submillimeter-wave spectrometer. The ions were generated in a free space absorption cell by a hollow-cathode discharge in a gas mixture of Cl 2 and He

The microwave rotational spectra of the carbon-13 isotopic species of H 2 C 3 , H 2 C 4 , and H 2 C 5 have been observed in a pulsed supersonic molecular beam by Fourier transform microwave spectroscopy. At high resolution all of the rotational lines exhibit hyperfine structure produced by the magne

have been measured for the first time. These reactive species were produced by a low-power ''abnormal'' glow discharge in a mixture of silane and oxygen. The observation of the deuterated species required the prior synthesis of SiD 4 . Anomalies in the spectrum of the parent species, measured previo