Magnetic hyperfine structure of ICN and nuclear shielding tensor of iodine

## Abstract The geometry of the heteropentalenes formed by two phosphole units has been determined at the DFT level. The magnetic susceptibility and the nuclear magnetic shielding at the nuclei of these systems have also been calculated using gauge‐including atomic orbitals and a large Gaussian bas

Calculations of the antisymmetric components of 13C shielding tensors have been performed in several compounds using the IGLO (individual gauge for localized orbitals) method. The results indicate chemical situations in which the detection of the antisymmetric components should be easier than in the

It is pointed out that nuclear magnetic resonance (NMR) spectra of the naturally abundant nuchde 14N in an oriented crystal yield the nuclear magnetic shielding tensor, in addition to the nuclear electric quadrupole interaction tensor. The primary shielding anisotropy (do=) of "N in KNO, is 149.8 x

Precise frequencies for the 1 11 -2 02 transition of 33 SO 2 and SO 17 O in natural isotopic abundance have been obtained near 12 GHz by microwave Fourier transform spectroscopy in order to yield improved hyperfine constants. Nuclear spin-rotation coupling constants have been determined experimental

The nuclear magnetic shielding tensor and the spin-rotation constant of the hydrogen molecule have been studied at the full configuration interaction level using a sequence of systematically enlarged basis sets which allow extrapolation to the basis set limit. The computed and experimental values fo