Rotational spectrum and structure of a furan—(argon)2 van der Waals complex

The microwave rotational spectrum of the p-fluorotoluene-argon van der Waals complex was analyzed with a molecular beam Fourier transform microwave spectrometer. In the frequency splitting of molecular transitions caused by the internal rotation of the methyl group with respect to the aromatic ring

Using a pulsed molecular beam microwave Fourier transform spectrometer, we measured the rotational spectrum of the 1.2 -difluorobenzene-argon van der Waals complex in the range from 7 to \(18 \mathrm{GHz}\). The rotational and centrifugal distortion constants were found to be \(A=\) \(1373.49072(9)

The argon-acetaldehyde van der Waals dimer was studied by Fourier transform microwave spectroscopy. Two tunneling motions were observed in the spectrum, an inversion through a planar configuration and methyl internal rotation. A simple deperturbation technique was employed in order to obtain rotatio

Pulsed-beam Fourier transform microwave spectroscopy was used to observe and assign the rotational spectra of the argonketene van der Waals complex. Tunneling of the hydrogen or deuterium atoms splits the a-and b-type rotational transitions of H 2 CCO-Ar, H 2 13 CCO-Ar, H 2 C 13 CO-Ar, and D 2 CCO-A