Contribution of the electron-spin current to the nuclear spin-rotation interaction constant in diatomic molecules

## Abstract The geometric aproximation is used within the framework of triple perturbation theory to evaluate the contributions to nuclear spin–spin coupling constants in the water molecule provided by the Fermi contact, the spin–orbit, and the spin–dipolar interactions. The results, obtained with

We present ab initio perturbation calculations of the electronic spin᎐orbit interaction contributions to indirect spin᎐spin coupling tensors using linear and quadratic response methods. The effects of both the Fermi-contact and the spin᎐dipole interactions as well as the one-and two-electron spin᎐or

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

Ab initio SCF and Cl calculations of the orbital diama:gwtic contribution to nuclear spin-spin coupling constants ha\c been performed for a series of moicculcs containinp multiple bonds. A striking feature of the results is the prediction of consistently large contributions to vicinal (trans) and gc