Iodine nuclear quadrupole coupling in the rotational spectrum of 1-iodoadamantane and the ionic character of the CI bond

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

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,

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

Nuclear quadrupole coupling constants x(C1) and x(D) have been determined together with the rotational constants BO and centrifugal distortion constants DJ for the linear dimers '5N2...D35CI and '5NZ...D'7Cl. The x(C1) of "N,...H(D)CI have been corrected for the electrical effects due to the presenc

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