论文信息 - Relativistic Hartree-Fock by means of stationary direct perturbation theory. II. Ground states of rare gas atoms

Relativistic Hartree-Fock by means of stationary direct perturbation theory. II. Ground states of rare gas atoms

The combination of relativistic Hartree–Fock theory with stationary direct perturbation theory presented in paper I of this series is applied to the ground states of the rare gas atoms He, Ne, Ar, Kr, Xe, Rn, in STO basis sets with finite nuclei. The error of the truncation of the perturbation expansion at O(c−6)—with the nonrelativistic reference O(c0)—is only ≊1% for Rn and <0.1% for Xe. The corresponding error for truncation at O(c−2) is <1% for Ar. An approximation in which c−2E(2) is calculated exactly, but in which two electron contributions to c−4E(4) and c−6E(6) are neglected, performs almost as well as rigorous perturbation theory up to c−6E(6) but is computationally much cheaper.

W. Kutzelnigg | Edgar Ottschofski

[1] W. Kutzelnigg,et al. Relativistic Hartree–Fock by means of stationary direct perturbation theory. I. General theory , 1995 .

[2] A. Thakkar,et al. Even-tempered Roothaan-Hartree-Fock wave functions for the third- and fourth-row atoms , 1993 .

[3] K. Jankowski,et al. Correlation and relativistic effects for many-electron systems. II. Second-order energies for closed-shell atoms , 1989 .

[4] K. Jankowski,et al. An alternative to the quasirelativistic approach , 1988 .

[5] Barry N. Taylor,et al. THE 1986 ADJUSTMENT OF THE FUNDAMENTAL PHYSICAL CONSTANTS: A REPORT OF THE CODATA TASK GROUP ON FUNDAMENTAL CONSTANTS , 1987 .

[6] I. P. Grant,et al. The Dirac equation in the algebraic approximation. V. Self-consistent field studies including the Breit interaction , 1987 .

[7] R. Raffenetti,et al. Even‐tempered atomic orbitals. II. Atomic SCF wavefunctions in terms of even‐tempered exponential bases , 1973 .

[8] W. H. Furry,et al. Relativistic Electron Theory , 1961 .

[9] I. Grant. Relativistic self-consistent fields , 1961, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[10] Enrico Clementi,et al. Modern Techniques in Computational Chemistry: MOTECC™ -89 , 1899 .