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The cost of Hartree−Fock and local correlation methods is strongly dependent on the locality of the one-particle density matrix and localized orbitals. In this paper the locality and sparsity of the one-particle density matrix is investigated numerically and theoretically, primarily at the Hartree−Fock level, for linear alkanes containing up to 320 carbon atoms. A method for the calculation of localized, atom-centered, occupied orbitals is presented and compared with the Boys' localization procedure. The atom-centered orbitals are ideally suited for use in local-correlation calculations. The connection between the size of optimally localized orbitals, the locality of the density matrix, and the onset of linear scaling is investigated.
Maslen et al. (Thu,) studied this question.