33S-nuclear quadrupole coupling in the rotational spectrum of the weakly bound dimer SCO … HF

We investigated the rotational spectrum in the vibrational ground state of \({ }^{33} \mathrm{~S}\)-dimethyl sulfide and its perdeuterated isotopomer in \({ }^{33} \mathrm{~S}\) natural abundance by molecular beam Fourier transform microwave spectroscopy. The \({ }^{33} \mathrm{~S}\) nuclear quadrup

The unstable HBS molecule has been produced in the gas phase by a high-temperature reaction between crystalline boron and hydrogen sulfide. Ground state rotational spectra have been observed in the millimeter-wave region, from 75 to 460 GHz, for the previously unobserved H 11 B 33 S and H 10 B 33 S

The rotational \(J=1-0\) transitions of nine different isotopomers of ethinylisocyanide. \(\mathrm{H} \cdots \mathrm{C} \equiv \mathrm{C}-\mathrm{NC}\), were measured with high resolution using a pulsed molecular beam microwave Fourier transform (MB-MWFT) spectrometer. The analysis of the complex hy

Pulsed-nozzle, Fourier-transform microwave spectroscopy has been used to establish the ground-state spectroscopic constants &,=2734.6105(11) MHz, D,=1.49(7) kHz, DIK=35.3(4) kHz and Dj$= -230(g) kHz for the dimer (CH,),"N...HF from its rotational spectrum. The H,19F spin-spin coupling constant D zF

Partially resolved hyperfine structure arising from H,Br nuclear-spin-nuclear-spin coupling has been identified in each Brnuclear quadrupole component of the l,,, +O,,,, transition of H,O...HBr. Lineshape simulation leads to a value of D,,= -23 (2) kHz for the spin-spin coupling constant for both H,