Localized orbitals in nonmetallic ring systems

Reinhardt, Peter; Malrieu, Jean‐Paul; Povill, Àngels; Rubió, J.

doi:10.1002/(sici)1097-461x(1998)70:1<167::aid-qua14>3.0.co;2-c

Cited by 10 publications

(10 citation statements)

References 23 publications

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“…r CÀC 0X1536 nm, r CÀH 0X1083 nm, CÀCÀC 112X7 Y and HÀCÀH 106X8 . Details of the algorithm employed to obtain the HF solution in local orbitals and examples of applications both for HF and for correlation calculations are given in papers I and II ( [27] and [28]). …”

Section: Numerical Resultsmentioning

confidence: 99%

“…16, since the repetition of the state jli would go through the -space, an event which is not allowed by the Bloch equations without changing the diagram type by invoking backfold diagrams. The same kind of summation was used for the ground-state energy calculations in papers I and II ( [27] and [28]). Additionally the Epstein-Nesbet (EN) corrections [43] were applied, using the diagonal of the exact Hamiltonian r as zeroth-order Hamiltonian r 0 rather than the diagonal of the Fock operator p , i.e.…”

Section: Qvp Vp Pvp 46mentioning

confidence: 99%

“…The present paper being the third one in a series on ring molecules, we will henceforth denote [27] and [28] as papers I and II. The implementation described in these articles is used to obtain HF orbitals, and is the basis for the programming of the module used to calculate the correlated band structures presented here.…”

Section: Introductionmentioning

confidence: 99%

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Ab initio correlation corrections to the Hartree-Fock quasi band-structure of periodic systems employing Wannier-type orbitals

Albrecht

Reinhardt

Malrieu

1998

Theoretical Chemistry Accounts: Theory, Computation, and Modeli

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A size-consistent ab initio formalism to calculate correlation corrections to ionization potentials as well as electron anities of periodic systems is presented. Our approach is based on a Hartree-Fock scheme which directly yields local orbitals without any a posteriori localization step. The use of local orbitals implies nonzero o-diagonal matrix elements of the Fock operator, which are treated as an additional perturbation and give rise to localization diagrams. Based on the obtained local orbitals, an eective Bloch Hamiltonian is constructed to second order of perturbation theory with all third-order localization diagrams included. In addition, the summation of certain classes of diagrams up to in®nite order in the o-diagonal Fock elements as well as the EpsteinNesbet partitioning of the full Hamiltonian are discussed. The problem of intruder states, frequently encountered in many-body perturbation theory, is dealt with by employing the theory of intermediate Hamiltonians. As model systems we have chosen cyclic periodic structures up to an oligoethylene ring in double-zeta basis; however, the theory presented here straightforwardly carries over to in®nite periodic systems.

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Section: Numerical Resultsmentioning

confidence: 99%

Section: Qvp Vp Pvp 46mentioning

confidence: 99%

See 1 more Smart Citation

Ab initio correlation corrections to the Hartree-Fock quasi band-structure of periodic systems employing Wannier-type orbitals

Albrecht

Reinhardt

Malrieu

1998

Theoretical Chemistry Accounts: Theory, Computation, and Modeli

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“…In this section we summarize results of some of our recent work on this topic [3]. BSC are also discussed elsewhere in these proceedings [35]. (I) The decay of the nonstationary atomic state and the definition of its energy.…”

Section: On the Theory Of Nonstationary Atomic States And On The Exismentioning

confidence: 99%

Theory and calculation of excited-state wave functions and properties

Beck

Nicolaides

2009

Int. J. Quantum Chem.

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This paper discusses the following. (I) A newly developed first-order theory of oscillator strengths (FOTOS) which has yielded accurate resultsfor f values involving single and multiple excitations to discrete and autoionizing states. Near-FOTOS results are reported for the N I 2p3 4S0 4 2s2p4 4P, 2p23s 4P isoelectronic sequences, the B I 2s22p 2Po -"2s2p2" 2S transition, and the N I1 2s2p3 IPo lifetime, which are in good agreement with experiment, in contrast to earlier results. ( 2 ) The semiquantitative predictive capability of FOTOS in identifying the important correlations in photoelectron spectroscopy, photoionization of rare gases, and molecular transitions. (3) Improvements in the accuracy and efficiency of the correlation procedure which has now been applied to species as large as cesium. Positions of resonances in He-and Li and binding energies of K+ and K are reported. ( 4 ) A new theorem which suggests nonexponential decays might be observed for autoionizing states sufficiently close to the ionization potential (perhaps 0 I 2p33s3P0). ( 5 ) The properties and means of theoretically and experimentally searching for bound states in the continuum, whose existence appears improbable.

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“…The fact that the construction of Hartree-Fock orbitals through the singles-CI method is useful has been demonstrated several times since its proposition, in particular for periodic systems. 19,37,61 The derivation of the singles-CI equations through the minimization of the Rayleigh quotient with respect to the expansion coefficients in the space of determinant may be found in standard textbooks. 62 What remains in this section is to show that the minimization of the DFT energy functional with respect to a multideterminantal wave function leads to similar expressions for the matrix elements of the CI matrix.…”

Section: Appendix A: Technical Detailsmentioning

confidence: 99%

Fragment-Localized Kohn−Sham Orbitals via a Singles Configuration-Interaction Procedure and Application to Local Properties and Intermolecular Energy Decomposition Analysis

Reinhardt

Piquemal

Savin

2008

J. Chem. Theory Comput.

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Abstract:As for generating localized Hartree-Fock orbitals, we propose a potentially linearscaling singles-CI scheme to construct fragment-localized density functional theory (DFT) orbitals for molecular systems as water clusters. Due to the use of a deformation step instead of a localization step, the influence of the environment on each separate molecule can be studied in detail. The generated orbital set for the whole molecular system is strictly equivalent to a set of canonical orbitals and is a subsequent energy decomposition of intermolecular interactions into electrostatic, exchange repulsion, and orbital interaction, well beyond dimer systems. Beyond this, the correspondence of the individual orbitals to the initial monomer orbitals permits to assess how an interaction deforms an electron density. We show this for dipole moments, which may be decomposed into monomer contributions, polarization, and charge-transfer contribution. Applications to a water and an ammonia dimer and chains of water molecules show possible further developments toward multipolar expansions and other orbital-based schemes for parametrizing force fields.

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Localized orbitals in nonmetallic ring systems

Cited by 10 publications

References 23 publications

Ab initio correlation corrections to the Hartree-Fock quasi band-structure of periodic systems employing Wannier-type orbitals

Ab initio correlation corrections to the Hartree-Fock quasi band-structure of periodic systems employing Wannier-type orbitals

Theory and calculation of excited-state wave functions and properties

Fragment-Localized Kohn−Sham Orbitals via a Singles Configuration-Interaction Procedure and Application to Local Properties and Intermolecular Energy Decomposition Analysis

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