A novel procedure for calculating magnetic susceptibilities and nuclear magneticshieldings in molecules is outlined, based on formal annihilation of transverseparamagnetic contribution to quantum mechanical current density induced within theelectron cloud by an external homogeneous, static magnetic field. Within this method allthe components of nuclear magnetic shielding are independent of a gauge translation, inany calculation relying on the algebraic approximation, irrespective of size and quality ofthe gaugeless basis set adopted; magnetic susceptibilities are invariant for centersymmetricmolecules (virtual invariance is actually observed for molecules of arbitrarysymmetry). Large basis set calculations of near-Hartree-Fock magnetic properties andmaps describing a current density field of acetylene molecule carried out via the newprocedure are compared with corresponding ones adopting the common origin-coupledHartree-Fock approach and methods formally annihilating the diamagnetic contributionto the current density.
Molecular Magnetic Properties via Formal Annihilation of Paramagnetic Contribution to Electronic Current Density / Lazzeretti, Paolo; R., Zanasi. - In: INTERNATIONAL JOURNAL OF QUANTUM CHEMISTRY. - ISSN 0020-7608. - STAMPA. - 60:(1996), pp. 249-259.
Molecular Magnetic Properties via Formal Annihilation of Paramagnetic Contribution to Electronic Current Density
LAZZERETTI, Paolo;
1996
Abstract
A novel procedure for calculating magnetic susceptibilities and nuclear magneticshieldings in molecules is outlined, based on formal annihilation of transverseparamagnetic contribution to quantum mechanical current density induced within theelectron cloud by an external homogeneous, static magnetic field. Within this method allthe components of nuclear magnetic shielding are independent of a gauge translation, inany calculation relying on the algebraic approximation, irrespective of size and quality ofthe gaugeless basis set adopted; magnetic susceptibilities are invariant for centersymmetricmolecules (virtual invariance is actually observed for molecules of arbitrarysymmetry). Large basis set calculations of near-Hartree-Fock magnetic properties andmaps describing a current density field of acetylene molecule carried out via the newprocedure are compared with corresponding ones adopting the common origin-coupledHartree-Fock approach and methods formally annihilating the diamagnetic contributionto the current density.Pubblicazioni consigliate
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