Interpretation of magnetic hyperfine coupling constants

Variation in the sodium hyperfine coupling constant of sodium 2 : 6-dimethylbenzosemiqumone is interpreted in terms of an equilibrium between two structurally different contact ion-pairs.

A recently developed method of non-empirical wave-function calculation is applied to the calculation of ESR hyperfine coupling constants. In particular the effect of d orbitals on the computed values of these constants is investigated for I%$--and H2S'. In this note, we wish to report the use of the

13C hyperfine coupling constants of the MuC6o radical have been measured by muon level-crossing spectroscopy, using a dilute solution of 99% enriched ~3C6o in decalin. The signs as well as the magnitudes of the hyperfine constants were determined. The results range from 52.6 to -25.4 MHz and support

Ab iw?ioUIIF calculations using a minimal basis set of orbitals for the radicals H.-,S, H9S', NHzi, =+, cn3and NH7 predict the h)Terfine coupling constants to all nuclei with a consiCknt rr&urac-lf SCP ato6ic orbital: are used. Recently [l] it has been suggested that there is generally poor agreemen

The 13C hyperfinc splitting constants of the tetrachloro+benzosemiquinone radical anion are measured for naturally occurring 13C nuclei in all the possible positions in the molecule. 'Their ass@unent is based on the linewidth.andysis of the single hyperfiie components and this is disc&d with referen