2023
DOI: 10.1021/acs.jpca.2c07646
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Density Matrix Implementation of the Fermi–Löwdin Orbital Self-Interaction Correction Method

Abstract: The Fermi−Loẅdin orbital self-interaction correction (FLOSIC) method effectively provides a transformation from canonical orbitals to localized Fermi−Loẅdin orbitals which are used to remove the self-interaction error in the Perdew−Zunger (PZ) framework. This transformation is solely determined by a set of points in space, called Fermi−Loẅdin descriptors (FODs), and the occupied canonical orbitals or the density matrix. In this work, we provide a detailed workflow for the implementation of the FLOSIC method fo… Show more

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Cited by 4 publications
(6 citation statements)
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“…14 They make use of new partitioning algorithms to overcome problems with electrostatic, induction, and exchange-induction components. Next, in an effort to understand the nature of π-stacking in porous, conjugated aromatic frameworks, Gray and Herbert at The Ohio State University used extended SAPT to decompose the interaction energies of several representative systems, including the [18]annulene dimer. 15 In their paper, which appears in section C4 ("Physical Properties of Materials and Interfaces") of J. Phys.…”
Section: ■ Weak Interactions Solvation and Decomposition Methodsmentioning
confidence: 99%
See 2 more Smart Citations
“…14 They make use of new partitioning algorithms to overcome problems with electrostatic, induction, and exchange-induction components. Next, in an effort to understand the nature of π-stacking in porous, conjugated aromatic frameworks, Gray and Herbert at The Ohio State University used extended SAPT to decompose the interaction energies of several representative systems, including the [18]annulene dimer. 15 In their paper, which appears in section C4 ("Physical Properties of Materials and Interfaces") of J. Phys.…”
Section: ■ Weak Interactions Solvation and Decomposition Methodsmentioning
confidence: 99%
“…Next, Melo, Pederson, and Peralta describe an implementation of the Fermi-Loẅdin orbital self-interaction correction (FLOSIC) method that is suitable for existing quantum chemistry programs. 18 They examine the convergence behavior of the algorithm for properties such as NMR shielding constants and excitation energies. Then, Moura and co-workers from the Kraka group at Southern Methodist University outline a new protocol called "LModeAGen" for the determination and analysis of local vibrational modes.…”
Section: ■ New Algorithms In Quantum Chemistrymentioning
confidence: 99%
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“…The first implementation of the FLOSIC methodology is based on Jacobi (or Givens)-type rotations to zero the overlap between the occupied and virtual orbitals at each self-consistent iteration, much like standard implementations of Foster-Boys, , Edmiston-Ruedenberg, Pipek-Mezey, or other localization schemes with various target functions, , at fixed FODs. Recently, some of us have proposed a mean-field scheme for relaxing the density in FLOSIC . Other implementations of FLOSIC based on unified Hamiltonian schemes and effective potentials have been reported. In all these implementations, FODs are relaxed in-between self-consistent loops at fixed density in a double-loop fashion.…”
Section: Introductionmentioning
confidence: 99%
“…Recently, some of us have proposed a mean-field scheme for relaxing the density in FLOSIC. 45 Other implementations of FLOSIC based on unified Hamiltonian schemes and effective potentials have been reported. 46 50 In all these implementations, FODs are relaxed in-between self-consistent loops at fixed density in a double-loop fashion.…”
Section: Introductionmentioning
confidence: 99%