Scaling the coulomb interaction in calculations of electron spectra of transition metal complexesстатья
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Дата последнего поиска статьи во внешних источниках: 18 июля 2013 г.
Аннотация:A simple technique of scaling two-electron integrals in ab initio calculations of the electronically excited states of transition metal complexes is proposed. This technique uses the fact that one-center two-electron integrals depend linearly on the scaling factor when Slater type functions are subjected to scaling transformation. This leads to a linear dependence of the d-d transition energy on the "scale" of Coulomb interaction, which allows one to affect the calculation result by varying the Slater exponential To test the technique, ab initio configuration interaction and full active space calculations of the low excited states of the CrF 3- 6, MnF 2- 6, and VF 3- 6 complexes are performed. For transition elements, a basis of Slater type effective functions chosen from the optical spectra of the atoms and ions of transition elements is used. It is shown that in the STO-6G basis with effective exponentials, experimental transitions are reproduced with an accuracy of about 2000 cm -1 even with the use of small active space determined by the orbitals localized on the central atom of the complex.