Nuclear Magnetic Shielding for Hydrogen in Selected Isolated Molecules

The variation-perturbation method, employing an explicitly correlated basis set in the form of Gaussian functions with exponential correlation factors, has been used to calculate the paramagnelic component of the nuclear magnetic shielding and the electronic contribution to the spin-rotation constan

On the basis of the four-current density functional formalism. a method to calculate chemical shifts is developed, allowing the use of Xa wavefunctions in computations of magnetic properties of molecules First results of calculated nuclear magnetrc shielding constants and diamagnetic susceptibilitie

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

## Abstract The differential Biot–Savart law of classical electrodynamics was applied to develop a ring current model for the magnetic shielding of the carbon nucleus in benzene. It is shown that the local effect of the π currents, induced by a magnetic field normal to the molecular plane, on the $