Komasa, JacekRychlewski, JacekRaynes, William T.2011-12-062011-12-061995-04-07CHEMICAL PHYSICS LETTERS Volume: 236 Issue: 1-2 Pages: 19-23http://hdl.handle.net/10593/1547The 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 paramagnetic component of the nuclear magnetic shielding and the electronic contribution to the spin-rotation constant for the hydrogen molecule in its ground state. The diamagnetic components of the shielding tensor have also been computed. The computations have been performed for three internuclear distances in the vicinity of equilibrium. A comparison of the calculated quantities, which are of high accuracy, with the experimental data reveals a small but significant discrepancy between theory and experiment.enHydrogen moleculeExponentially correlated Gaussian wave functionNuclear magnetic shieldingSpin-rotation constantArtykuł