Björn O. Roos scite author profile

The recently implemented second-order perturbation theory based on a complete active space self-consistent field reference function has been extended by allowing the Fock-type one-electron operator, which defines the zeroth-order Hamiltonian to have nonzero elements also in nondiagonal matrix blocks. The computer implementation is now less straightforward and more computer time will be needed in obtaining the second-order energy. The method is illustrated in a series of calculations on N2, NO, O2, CH3, CH2, and F−.

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A complete active space SCF method (CASSCF) using a density matrix formulated super-CI approach

Roos

1980

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MOLCAS 7: The Next Generation

et al. 2009

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Some of the new unique features of the MOLCAS quantum chemistry package version 7 are presented in this report. In particular, the Cholesky decomposition method applied to some quantum chemical methods is described. This approach is used both in the context of a straight forward approximation of the two-electron integrals and in the generation of so-called auxiliary basis sets. The article describes how the method is implemented for most known wave functions models: self-consistent field, density functional theory, 2nd order perturbation theory, complete-active space self-consistent field multiconfigurational reference 2nd order perturbation theory, and coupled-cluster methods. The report further elaborates on the implementation of a restricted-active space self-consistent field reference function in conjunction with 2nd order perturbation theory. The average atomic natural orbital basis for relativistic calculations, covering the whole periodic table, are described and associated unique properties are demonstrated. Furthermore, the use of the arbitrary order Douglas-Kroll-Hess transformation for one-component relativistic calculations and its implementation are discussed. This section especially focuses on the implementation of the so-called picture-change-free atomic orbital property integrals. Moreover, the ElectroStatic Potential Fitted scheme, a version of a quantum mechanics/molecular mechanics hybrid method implemented in MOLCAS, is described and discussed. Finally, the report discusses the use of the MOLCAS package for advanced studies of photo chemical phenomena and the usefulness of the algorithms for constrained geometry optimization in MOLCAS in association with such studies.

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MOLCAS: a program package for computational chemistry

Karlström¹,

Lindh²,

Malmqvist³

et al. 2003

Computational Materials Science

1,713

1,354

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The multi-state CASPT2 method

Finley

Malmqvist

Roos

et al. 1998

Chemical Physics Letters

1,398

1,330

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Björn O. Roos

Second-order perturbation theory with a complete active space self-consistent field reference function

A complete active space SCF method (CASSCF) using a density matrix formulated super-CI approach

MOLCAS 7: The Next Generation

MOLCAS: a program package for computational chemistry

The multi-state CASPT2 method

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