Your search keyword '"Ede Kapuy"' showing total 42 results

1. Correlation corrected energy bands of poly(para-phenylene-vinylene)

Author

Ede Kapuy, Ferenc Bogár, and Janos Ladik

Subjects

Electronic correlation, Chemistry, Crystal structure, Condensed Matter Physics, Polarization (waves), Biochemistry, Crystal, Crystallography, Chain (algebraic topology), Physical and Theoretical Chemistry, Ionization energy, Atomic physics, Electronic band structure, Basis set

Abstract

The band structure of poly( para -phenylene-vinylene) (PPV) has been calculated. A Hartree–Fock (HF) crystal orbital calculation served as a starting point for a quasi-particle (QP) method to take the electron correlation into account. A double zeta basis set was used with polarization functions. The calculated ionization potential (using Koopmans' theorem) is somewhat larger than the experimental one and the width of the correlation corrected valence band is in quite good agreement with the value obtained from previous calculations. On the other hand, although the correlation correction decreased the fundamental gap substantially as compared with its HF value (from 7.42 to 4.89 eV), it is still twice as large as its directly measured value. The main reason for this large disagreement is that we have calculated a single chain of PPV, while the measured value refers to a layer. Looking at the crystal structure of PPV one finds that it is closely packed with the smallest interchain distance of ∼2.5 A. In such case no Madelung potential can be used to describe the rest of the crystal around the calculated chain. For this reason we plan different two-dimensional calculations to resolve the contradiction concerning the fundamental gap.

Published

1998

2. A decomposition of the total energy at the HF-SCF level and at several levels of correlation. III

Author

János Pipek and Ede Kapuy

Subjects

Correlation, Superposition principle, Field (physics), Chemistry, Hartree–Fock method, Molecular orbital theory, Molecular orbital, Physical and Theoretical Chemistry, Atomic physics, Condensed Matter Physics, Biochemistry, Decomposition, Basis set

Abstract

The method of separated molecular orbitals (SMO) has already proved to be useful for describing the energy partitioning at the Hartree–Fock (HF) level in several weakly interacting systems. In the present paper, the total energy decomposition into different contributions according to the interacting units is discussed at the HF level for a zeolite model system. The effect of the basis set superposition is considered by the use of SMO in a simple and straightforward manner.

Published

1998

3. Correlation-corrected energy bands of polymers with large unit cell: poly(para-phenylene) and poly(peri-naphthalene)

Author

Janos Ladik, Wolfgang Förner, Ede Kapuy, and Ferenc Bogár

Subjects

chemistry.chemical_classification, Ab initio, Inverse, Polymer, Condensed Matter Physics, Biochemistry, chemistry.chemical_compound, chemistry, Computational chemistry, Physical chemistry, Physics::Chemical Physics, Physical and Theoretical Chemistry, Electronic band structure, Polarization (electrochemistry), Unit (ring theory), Basis set, Naphthalene

Abstract

The correlation-corrected band structures of quasi 1D poly(para-phenylene) (PPP) and poly(peri-naphthalene) (PPN) are presented, using the ab initio quasi-particle method based on the iterative solution of the inverse Dyson equation. A double zeta basis set is used with polarization functions for PPN and a double zeta basis is used for PPP.

Published

1997

4. Application of the localized representation for studying interaction energies

Author

Cornelia Kozmutza, Ede Kapuy, E. M. Evleth, L. Trzl, and J. Pipek

Subjects

Chemistry, Representation (systemics), Statistical physics, Physical and Theoretical Chemistry, Condensed Matter Physics, Atomic and Molecular Physics, and Optics

Published

1996

5. The application of localized representation in the calculation of interaction energy

Author

Cornelia Kozmutza, E. Kassab, Ede Kapuy, and E.M. Evleth

Subjects

Reduction (complexity), Superposition principle, Chemistry, Dispersion (optics), Interaction energy, Localized molecular orbitals, Physical and Theoretical Chemistry, Atomic physics, Condensed Matter Physics, Representation (mathematics), Biochemistry, Basis set, Order of magnitude

Abstract

The results presented in this paper for the dimer of H2O as well as for the dative complexes formed by the interaction of BH3 + H2O and AlH3 + H2O suggest that about 50% of the dispersion energy can be recovered, using a 6-31G(d) basis set, in cases when only the contributions of those localized molecular orbitals are included which are in the vicinity of the interaction region. The reduction in computing time is about an order of magnitude. The procedure applied makes it possible to avoid basis set superposition errors at the correlated level. The method presented opens the way for studying large clusters containing various atoms beyond the HF level.

Published

1995

6. Application of many-body perturbation theory in the localized representation for the all-transconjugated polyenes

Author

E. Tfirst, Ferenc Bogár, and Ede Kapuy

Subjects

Physics, Field (physics), Quantum mechanics, Ab initio, Molecule, Molecular orbital, Localized molecular orbitals, Physical and Theoretical Chemistry, Perturbation theory, Condensed Matter Physics, Representation (mathematics), Atomic and Molecular Physics, and Optics, Basis set

Abstract

Ab initio self-consistent field (SCF) calculations are performed with the standard 6-31G* basis set for all-trans conjugated oligomers C2n+2H2n+4. The canonical occupied and virtual molecular orbitals (MOs) are separately localized by unitary transformations. Due to the localization, the perturbation operator is partitioned into two-particle and into single-particle terms; the MBPT is, therefore, a double-perturbation expansion in this case. By using the localized representation of the MBPT, the correlation energy contributions can be partitioned into local and nonlocal effects. It can be shown that the local effects are very important and well transferable, which makes possible the calculation of the correlation energy of larger molecules if the localized molecular orbitals (occupied and virtual) of smaller related molecules are known. © 1994 John Wiley & Sons, Inc.

Published

1994

7. Calculation of the interaction energy in a localized representation for a trimer (Ne3) system

Author

Cornelia Kozmutza, E.M. Evleth, and Ede Kapuy

Subjects

Computational Mathematics, Electronic correlation, Atomic orbital, Basis (linear algebra), Chemistry, Intramolecular force, Hartree–Fock method, Trimer, General Chemistry, Interaction energy, Atomic physics, Supermolecule

Abstract

We studied the transferability of the localized orbitals (LOs) of interacting Ne atoms using several basis sets. Both at SCF and at MP2 and MP3 levels, the contributions of the LOs have been calculated and discussed for the Ne2 and Ne3 systems. It was shown that for the LOs the transferability is satisfied to a good extent and due to the transferability the interaction energy at the correlated level can be calculated by using only the LOs of the supermolecule. The basis set superposition error (BSSE) is simply extracted from the intramolecular parts of the correlation energy. The two- and three-body interaction energies have been investigated for the studied systems. © John Wiley & Sons, Inc.

Published

1993

8. Solvent-assisted interaction between molecules: calculations at the Hartree-Fock + correlation level Part 1. The study of the BH3 + H2O and NH3 + NH3 systems

Author

Cornelia Kozmutza and Ede Kapuy

Subjects

Condensed matter physics, Electronic correlation, Chemistry, Triatomic molecule, Hartree–Fock method, Interaction energy, Condensed Matter Physics, Supermolecule, Biochemistry, Molecular physics, Molecule, Physical and Theoretical Chemistry, Dispersion (chemistry), Representation (mathematics)

Abstract

The dispersion interaction energy with the molecules BH3 and NH3 was computed using a specific supermolecule method. The essence of the approach used lies in applying a localized representation in the virtual space. This method makes it sensible to investigate the above systems surrounded by several water molecules.

Published

1993

9. Investigation of the correlation energy component of the intermolecular interaction energy

Author

Ede Kapuy, Ferenc Bogár, E. Tfirst, and Cornelia Kozmutza

Subjects

Correlation, Chemistry, Intermolecular interaction, Trimer, Canonical form, Interaction energy, Physical and Theoretical Chemistry, Atomic physics, Perturbation theory, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Basis set, Energy (signal processing)

Abstract

Supermolecular model of the intermolecular interaction energy is studied. The correlation energy components are calculated by using the many-body perturbation theory (MBPT) in the canonical representation as well as in the localized one. The components of the corrections of the different order are analyzed individually. The effects of the localization procedure and the basis set are also investigated. An H2O trimer is used to study the two- and three-body components of the interaction energy. © 1993 John Wiley & Sons, Inc.

Published

1993

10. Ga2H2: planar dibridged, vinylidene-like, monobridged, and trans equilibrium geometries

Author

Henry F. Schaefer, Ede Kapuy, and Zoltan Palagyi

Subjects

Coupled cluster, Electronic correlation, Computational chemistry, Chemistry, Potential energy surface, Ab initio, General Physics and Astronomy, Physical and Theoretical Chemistry, Configuration interaction, Molecular physics, Potential energy, Basis set, Excitation

Abstract

The singlet potential energy surface of Ga 2 H 2 has been studied using the self-consistent-field (SCF), single and double excitation configuration interaction (CISD), and single and double excitation coupled cluster (CCSD) methods. Optimized geometries and harmonic vibrational frequencies were obtained for four geometrical isomers with a double-zeta plus polarization basis set (DZP). Relative energies of the above structures were also predicted using a triple-zeta plus polarization basis set augmented with a set of f functions on the gallium atoms (TZP + f). For final energetic predictions with this basis set we included the effects of triple excitations perturbatively using the CCSD(T) method. The planar dibridged structure is the global minimum — two additional low-lying minima were found, corresponding to trans-bent and vinylidene-like structures. Our analysis also predicts the existence of a remarkable low-lying monobridged minimum, which has recently been observed experimentally for Si 2 H 2 , and predicted by ab initio methods for the valence-isoelectronic Al 2 H 2 .

Published

1993

11. On the use of spatial symmetry in ab initio calculations. Transformation of the two-electron integrals from atomic orbital to localized molecular orbital basis

Author

Cornelia Kozmutza and Ede Kapuy

Subjects

Zero differential overlap, Non-bonding orbital, Applied Mathematics, Slater integrals, Quantum mechanics, Molecular orbital, Molecular orbital theory, General Chemistry, Localized molecular orbitals, Slater-type orbital, STO-nG basis sets, Mathematics

Abstract

Anm 5-dependent integral transformation procedure from atomic orbital basis to localized molecular orbitals is described for spatially extended systems with some Abelian symmetry groups. It is shown that exploiting spatial symmetry, the number of non-redundant integrals for normal saturated hydrocarbons can be reduced by a factor of 2.5-3.5, depending on the size of the system and on the basis. Starting from a list of integrals over basis functions in canonical order, the number of multiplications of the four-index transformation is reduced by a factor of 2.8-3.5 as compared to that of Diercksen's algorithm. It is pointed out that even larger reduction can be achieved if negligible integrals over localized molecular orbitals are omitted from the transformation in advance.

Published

1993

12. Localized molecular orbitals of interacting molecular systems

Author

Ede Kapuy, C. Kozmutza, Ferenc Bogár, and Ferenc Bartha

Subjects

Physics, Fock matrix, Intermolecular force, Molecule, Interaction energy, Localized molecular orbitals, Molecular systems, Valence electron, Supermolecule, Molecular physics

Abstract

We have studied the transferability of the localized molecular orbitals (LMOs) of interacting water molecules for distances around the intermolecular energy minimum. The Fock matrix elements (e) and the “effective volumes”Vieff of the LMOs have been calculated and discussed. It was shown that for the valence shell LMOs the transferability is satisfied to a large extent, the deviation is less than 5 %. Due to this transferability the dispersion interaction energy can be calculated by using only the LMOs of the supermolecule and the BSSE can be neglected.

Published

1991

13. Theoretical investigation of the interaction energy in the Li++H2O ionic complex

Author

Ede Kapuy, C. Kozmutza, and Zs. Ozoróczy

Subjects

Condensed Matter::Soft Condensed Matter, Physics, Quantum optics, Condensed Matter::Materials Science, Ab initio, Representation (systemics), Molecule, Physics::Atomic Physics, Interaction energy, Physics::Chemical Physics, Ionic complex, Molecular physics, Ion

Abstract

The interaction energy between the Li+ ion and the water molecule has been studied at the ab initio SCF+MBPT(2) level in localized representation.

Published

1991

14. Applications of the many-body perturbation theory in the localized representation: structural effects in the correlation energy of normal saturated hyd

Author

Cornelia Kozmutza, Ferenc Bogár, Ferenc Bartha, and Ede Kapuy

Subjects

Field (physics), Atomic orbital, Basis (linear algebra), Chemistry, Quantum mechanics, Neighbourhood (graph theory), Ab initio, Order (ring theory), Physical and Theoretical Chemistry, Perturbation theory, Condensed Matter Physics, Representation (mathematics), Biochemistry

Abstract

An ab initio self-consistent field (SCF) method with standard STO-3G and 6-31G ∗ basis sets was used to study some normal saturated hydrocarbons. The occupied and virtual canonical orbitals were localized separately by Boys' procedure and the correlation energy corrections were calculated in the localized representation of the many-body perturbation theory. Introducing the concept of “neighbourhood order” the local and non-local effects can be separated and the correlation energy corrections can be partitioned accordingly. It was found that the correlation energy corrections in these molecules are predominantly of local origin. The contributions to the pair correlation energies are transferable to a good approximation. In analysing the contributions of the localized virtual orbitals, some interesting structural features were identified.

Published

1991

15. Calculation of the dispersion interaction energy by using localized molecular orbitals

Author

Cornelia Kozmutza and Ede Kapuy

Subjects

Electronic correlation, Chemistry, Linear combination of atomic orbitals, Intermolecular force, General Physics and Astronomy, Interaction energy, Localized molecular orbitals, Physical and Theoretical Chemistry, Atomic physics, Supermolecule, Basis set, STO-nG basis sets

Abstract

In this paper, we present a method for the calculation of dispersion interaction energies of molecules, which is based on the localized molecular orbitals of the supermolecule. It is shown (using various basis sets) that the energy contributions of the localized molecular orbitals, for distances around the intermolecular energy minimum, are transferable to a fairly good approximation from the noninteracting monomers to the supermolecule. The correlation energy component of the interaction energy can be separated into inter‐ and intraparts. We show how the basis set superposition errors can be located and separated at the correlated level. Results are presented for several systems [(H2O)2, (NH3)2, and Ne2 ] with different basis sets from the minimal one to the split shell plus polarization functions. The method applies the well‐known Boys’ localization procedure and has the advantage that for the dispersion energy at a given geometry, the integral transformation should only be carried out once (from the ba...

Published

1991

16. The transferability of some molecular properties in all-trans conjugated polyenes

Author

Ferenc Bogár, R. Daudel, Ede Kapuy, Péter G. Szalay, Cornelia Kozmutza, and Ferenc Bartha

Subjects

Specific orbital energy, Computational chemistry, Chemistry, Gaussian orbital, Ab initio, Charge density, Molecule, Localized molecular orbitals, Physical and Theoretical Chemistry, Conjugated system, Condensed Matter Physics, Biochemistry, Basis set

Abstract

The ab initio SCF method was applied to the all-trans polyacetylenes C 2 n + 2 H 2 n + 4 ( n = 0, 2, 4, 6, 8, 10), by using standard STO-3G basis set. The localized molecular orbitals obtained by Boys' procedure were studied and compared. It is shown that, in spite of the “tails”, the contributions of the localized molecular orbitais (orbital energy, charge distribution, effective volume etc.) on increasing the length of the molecule converge to definite values, depending upon the position of the corresponding localized orbital in the molecule. It is shown that the difference with respect to the transferability between the aliphatic hydrocarbons and the all-trans conjugated polyenes is only quantitative. In the latter compounds the effects of the fourth neighbours should also be included.

Published

1991

17. Applications of the<scp>MBPT</scp>in the localized representation

Author

Ede Kapuy, Ferenc Bogár, Ferenc Bartha, Cornelia Kozmutza, and Zoltán Csépes

Subjects

Physics, Atomic orbital, Electronic correlation, Ab initio quantum chemistry methods, Fock matrix, Quantum electrodynamics, Quantum mechanics, Perturbation operator, Perturbation (astronomy), Physical and Theoretical Chemistry, Condensed Matter Physics, Unitary state, Atomic and Molecular Physics, and Optics

Abstract

Diagrammatic formulation of the MBPT is applied when the occupied and the virtual canonical orbitals are separately localized by unitary transformations. In this localized representation, due to the off-diagonal Fock matrix elements, the perturbation operator contains extra terms generating the so-called localization corrections. These corrections enter the perturbation energy in third and higher orders. Their magnitude depends on the type of localization, but they represent only a small fraction of the canonical corrections. The calculation of the localization corrections, however, does not need a significant amount of extra computer time. It is shown that by introducing an “order of neighborhood” local and nonlocal effects of the electron correlation can be separated and the contribution of the nonlocal effects can be neglected to a good approximation. Ab initio calculations have been carried out for the normal saturated hydrocarbons: C2n+1H4n+4 and for the all-trans conjugated polyenes C2n+2H2n+4. As to the ratio of the local and nonlocal corrections, it is shown that there is only a quantitative difference for these two kinds of systems (strongly or weakly localizable). Neglecting nonlocal effects, considerable amount of computer time can be saved.

Published

1990

18. Localization of virtual orbitals

Author

Ferenc Bartha, Ferenc Bogár, and Ede Kapuy

Subjects

Condensed matter physics, Chemistry, Gaussian orbital, Localized molecular orbitals, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, STO-nG basis sets, Slater-type orbital, Linear combination of atomic orbitals, Quantum mechanics, Molecular orbital, Physical and Theoretical Chemistry, Basis set, Natural bond orbital

Abstract

The application of the MBPT in the localized representation requires that both the occupied and the virtual orbitals obtained by the canonical HF equation should be localized. The localization of the occupied orbitals is straightforward in general by any localization method. It is shown that by using Boys' method the localized virtual orbitals are spatially well separated and transferable not only in minimal basis sets.

Published

1990

19. Ge2H2: a germanium-containing molecule with a low-lying monobridged equilibrium geometry

Author

Ede Kapuy, Henry F. Schaefer, and Zoltan Palagyi

Subjects

Chemistry, General Chemistry, Configuration interaction, Biochemistry, Molecular physics, Catalysis, Colloid and Surface Chemistry, Coupled cluster, Computational chemistry, Molecular vibration, Potential energy surface, Singlet state, Ground state, Excitation, Basis set

Abstract

Recent experimental sind theoretical studied reporting remarkable monobridged structures for Si 2 H 2 , Al 2 H 2 , and Ga 2 H 2 have motivated us to re-investigate the singlet potential energy surface of Ge 2 H 2 using the self-consistent-field (CCP), single and double excitation configuration interaction (CISD), and single and double excitation coupled cluster (CCSD) methods in conjunction with a double-ζ plus polarization basis set (DZP). In addition to the dibridged (or butterfly) ground state and the low-lying vinylidene-like minimum reported earlier by Grev and DeLeeuw, our study predicts the existence of a monobridged isomer, which is characterized as a minimum by means of harmonic vibrational frequency analyses

Published

1993

20. Localized supermolecular model for the calculation of intermolecular interaction energy

Author

Cornelia Kozmutza, Ede Kapuy, and Earl M. Evleth

Subjects

Electronic correlation, Intermolecular interaction, Chemistry, Intermolecular force, Hartree–Fock method, Quantum-mechanical explanation of intermolecular interactions, Perturbation theory, Quantum chemistry, Molecular physics, Energy (signal processing)

Published

1995

21. Geometry dependence of the proton affinities in the electronic ground, excited triplet and ionized doublet states of H2CO and H2COH+

Author

Imre G. Csizmadia, Ede Kapuy, Otto P. Strausz, Michael A. Robb, and Cornelia Kozmutza

Subjects

Proton, Chemistry, Condensed Matter Physics, Biochemistry, Bond length, Ionization, Excited state, Singlet fission, Physics::Atomic and Molecular Clusters, Proton affinity, Singlet state, Physical and Theoretical Chemistry, Ionization energy, Atomic physics, Astrophysics::Galaxy Astrophysics

Abstract

The ionization potential of the closed shell H2CO, H2COH+, H2COH22+ as well as the proton affinity of H2CO and H2COH+ have been studied at a variable CO bond length in the ground singlet and some of the low lying excited triplet and ionized doublet states.

Published

1982

22. Applications of the MBPT in the localized representation the behaviour of the localization terms

Author

Zoltán Csépes, Ferencz Bartha, Ede Kapuy, Cornelia Kozmutza, and Ferencz Bogár

Subjects

Electronic correlation, Chemistry, Computational chemistry, Gaussian orbital, Representation (systemics), General Chemistry, Statistical physics

Abstract

The behaviour of the localization corrections of the MBPT is investigated. It is shown that calculating the third and fourth order localization corrections we obtain sufficiently accurate results to the second order correlation energy both for cyclic polyenes and for saturated hydrocarbons. The evaluation of the localization diagrams does not require significant extra computer time. The extra computer time can be recovered if small non-local effects will be neglected.

Published

1988

23. Study of the transferability of some molecular properties

Author

R. Daudel, Cornelia Kozmutza, and Ede Kapuy

Subjects

Chemistry, Molecular orbital diagram, Molecular orbital theory, Condensed Matter Physics, Biochemistry, Molecular physics, Slater-type orbital, STO-nG basis sets, Non-bonding orbital, Molecular orbital, Physics::Chemical Physics, Physical and Theoretical Chemistry, Atomic physics, Basis set, Natural bond orbital

Abstract

An ab initio SCF method has been applied to normal saturated hydrocarbons C2n+1H4n+4 (n=0,1,2,3,4), by using a standard STO-3G basis set. The localized orbitals of the molecules obtained by Boys'procedure are investigated and compared. It is shown that, in spite of the “tails” the contributions of the localized orbitals (orbital energy, charge distribution, effective volume, etc.), by increasing the length of the system, converge to definite values depending only upon the position of the corresponding localized orbital in the molecule. This offres a possibility of explaining the transferability of certain molecular properties in a natural way.

Published

1988

24. Transferability of some properties of localized molecular orbitals

Author

Michael E. Stephens, Raymond Daudel, Cornelia Kozmutza, and Ede Kapuy

Subjects

Chemistry, Linear combination of atomic orbitals, Molecular orbital diagram, Molecular orbital, Molecular orbital theory, Chiropractics, Complete active space, Localized molecular orbitals, Physical and Theoretical Chemistry, Atomic physics, Slater-type orbital, Natural bond orbital

Abstract

The localized molecular orbitals of some related ten- and eighteen-electron systems have been studied. The transferability of the kinetic, self-interaction, Coulomb and exchange interaction energies on localized orbitals have been shown. The standard deviation of the kinetic and of the interaction energies (including exchange) are less than 2.5% except for lone pair orbitals of the oxygen atoms where the standard deviation is close to 4%.

Published

1979

25. Vertical proton affinities of CH2O and CH2OH+ in their ground singlet, excited triplet and ionized doublet states

Author

Giannoula Theodorakopoulos, Otto P. Strausz, Cornelia Kozmutza, Imre G. Csizmadia, Ede Kapuy, and Michael A. Robb

Subjects

Proton, Chemistry, Ionization, Excited state, Chiropractics, Singlet state, Physical and Theoretical Chemistry, Atomic physics, Open shell, Affinities, Gas phase

Abstract

Vertical proton affinities were calculated with closed and open shell direct SCF-MO methods for the ground, excited triplet and ionized doublet states of CH2O and CH2OH+. The computed gas phase basicity of CH2O follows the order: CH2O(1 A 1) > CH2O*(3 A 1 or 3 A 2) > CH2O+(2 B 2 or 2 B 1).

Published

1978

26. Application of the many-body perturbation theory to normal saturated hydrocarbons in the localized representation

Author

Ferenc Bogár, Cornelia Kozmutza, Ede Kapuy, and Ferenc Bartha

Subjects

Atomic orbital, Electronic correlation, Computational chemistry, Chemistry, Quantum mechanics, Gaussian orbital, Neighbourhood (graph theory), Order (ring theory), Chiropractics, Physical and Theoretical Chemistry, Perturbation theory, Representation (mathematics), Many body

Abstract

The second-order energy corrections are calculated for some normal saturated hydrocarbons by using the many body-perturbation theory (MBPT) based on localized orbitals. The correlation energies are expressed as the sum of contributions from virtual orbital pairs. We have found that these contributions are transferable and have interesting structural features: the trans-coplanar effects are relatively large. Partitioning the correlation energies according to the “order of neighbourhood” we have found that the zero order effects are the largest but the first and second neighbour contributions are also important.

Published

1987

27. Determination of molecular properties by the method of moments

Author

Ede Kapuy and Tams Szondy

Subjects

Physics, Computational chemistry, Quantum mechanics, Hartree–Fock method, Chiropractics, Physical and Theoretical Chemistry, Method of moments (statistics), Wave function

Published

1976

28. Theory of lone pairs. II. A moment analysis of localized molecular orbitals in ten-electron hydrides

Author

Imre G. Csizmadia, R. Daudel, John D. Goddard, Ede Kapuy, M. E. Stephens, and Cornelia Kozmutza

Subjects

Chemistry, Non-bonding orbital, Molecular orbital diagram, Molecular orbital theory, Molecular orbital, Valence bond theory, Localized molecular orbitals, Physical and Theoretical Chemistry, Atomic physics, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Slater-type orbital, Natural bond orbital

Abstract

Ab initio double-zeta quality molecular orbital calculations have been carried out on an extensive series of ten-electron hydrides. The Edmiston–Ruedenberg energy-localized molecular orbitals were calculated and the total molecular and localized orbital densities analyzed in terms of dipole moments, contour plots, and a simplified model for the orbital density involving analysis of the first and second moments. The simplified moment analysis model may be easily visualized in terms of threedimensional geometric objects, spheres, and ellipsoids. The model summarizes the information on the effective functional distribution inherent in the more detailed orbital contour plots in a clear and concise manner.

Published

1977

29. Theory of lone pairs. A relationship between orbital energy contributions and the second moments of localized orbitals in ten-electron hydrides

Author

Cornelia Kozmutza, Imre G. Csizmadia, Ede Kapuy, John D. Goddard, and R. Daudel

Subjects

Specific orbital energy, Atomic orbital, Chemistry, General Physics and Astronomy, Molecular orbital, Electron, Physical and Theoretical Chemistry, Atomic physics, Effective volume, Lone pair

Abstract

A relationship between e i the energy contribution of the i th localized molecular orbital, and 〈 R 3 〉 i = (〈 x ′ 2 〉〈 y ′ 2 〉〈 z ′ 2 〉) 1 2 , the “statistical effective volume” of the i th LMO, is discussed for a series of ten-electron hydrides. The equation 1/ e i = m (〈 R 3 〉 i ) 2 3 where m is a constant holds accurately for core, bond, and lone pair LMO densities.

Published

1976

30. Basis set dependence of localized orbitals

Author

R. Daudel, Cornelia Kozmutza, Michael E. Stephens, and Ede Kapuy

Subjects

Linear combination of atomic orbitals, Chemistry, Molecular orbital theory, Molecular orbital, Chiropractics, Localized molecular orbitals, Physical and Theoretical Chemistry, Atomic physics, Slater-type orbital, STO-nG basis sets, Basis set, Natural bond orbital

Abstract

The effects of Gaussian basis set contraction and addition of polarization functions on H2O localized orbitals have been studied at the experimental geometry. It is shown that the electric moments and moment features of localized orbitals are not influenced very much by basis set quality variations, as going from medium size to enlarged basis sets. The difference between bond pair and lone pair charge densities was found to be larger on approaching the Hartree-Fock limit. A minimal basis set, however, does not suitably characterize the localized charge distributions.

Published

1978

31. An efficient method for using molecular symmetry

Author

Ferenc Bartha, Cornelia Kozmutza, and Ede Kapuy

Subjects

Series (mathematics), Chemistry, Gaussian orbital, Ab initio, Condensed Matter Physics, Biochemistry, Symmetry (physics), Minicomputer, law.invention, Computational chemistry, law, Quantum mechanics, Molecular symmetry, Molecule, Physical and Theoretical Chemistry

Abstract

In a series of papers a new method which uses the molecular symmetry for treatment of extended molecules is investigated. In this paper it is shown that in the presence of model geometries the method — on which a new ab initio program named SYCETY is based — is effective for calculation of large, related systems.

Published

1985

32. The study of normal saturated hydrocarbons in the localized representation of the MBPT

Author

Cornelia Kozmutza, Ferenc Bartha, Ede Kapuy, and Ferenc Bogár

Subjects

Chemistry, Neighbourhood (graph theory), Zero (complex analysis), Ab initio, Condensed Matter Physics, Biochemistry, Molecular physics, Atomic orbital, Computational chemistry, Position (vector), Order (group theory), Molecule, Physical and Theoretical Chemistry, Basis set

Abstract

An ab initio SCF method with a standard STO-3G basis set was used to study normal saturated hydrocarbons C 2 n +1 H 4 n +4 ( n =0,1,2,3,…). The occupied and the virtual canonical orbitals were localized separately by Boys'procedure and the second-order correlation energy was calculated in the localized representation of the MBPT. In order to separate local and non-local effects the concept of “neighbourhood order” was introduced and the correlation energies were partitioned according to this. It was shown that: (1) by taking into account only the zero-, first- and second-order “neighbourhoods”, more than 99% of the total second-order correlation energy could be recovered; (2) the contributions to the pair correlation energies were transferable to a good approximation; and (3) by increasing the system, the contributions of the most important pair correlation energies converged to definite values, depending only upon the position of the corresponding LMO in the molecule.

Published

1988

33. Theory of lone pairs. IV. Molecular ion hole states of ten-electron hydrides. Molecular ionization potentials and proton affinities by directSCF calculations

Author

Cornelia Kozmutza, Michael A. Robb, R. Daudel, Ede Kapuy, and Imre G. Csizmadia

Subjects

Valence (chemistry), Chemistry, Protonation, General Chemistry, Electron, Molecular physics, Affinities, Effective nuclear charge, Computational Mathematics, Ionization, Physics::Atomic and Molecular Clusters, Molecular orbital, Atomic physics, Lone pair

Abstract

Closed-shell SCF calculations on the ground states and direct SCF calculations on the ionized doublet states were carried out for a series of ten-electron hydrides. The correlation of ionization potentials with the degree of protonation and the nuclear charge has been studied for hole states derived from excitation out of both the core and valence molecular orbitals. Calculated proton affinities of the ground states and hole states derived from a given symmetry orbital show a similar trend to that of the ionization potentials.

Published

1982

34. Application of the many-body perturbation theory by using localized orbitals

Author

Cornelia Kozmutza, Zoltán Csépes, and Ede Kapuy

Subjects

Physics, Linear combination of atomic orbitals, Quantum mechanics, Valence bond theory, Molecular orbital theory, Molecular orbital, Cubic harmonic, Physical and Theoretical Chemistry, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Basis set, Slater-type orbital, Natural bond orbital

Published

1983

35. Limits on the localized interpretation of molecular orbital wavefunctions

Author

Ede Kapuy, Cornelia Kozmutza, M. E. Stephens, and R. Daudel

Subjects

Valence (chemistry), Non-bonding orbital, Chemistry, Linear combination of atomic orbitals, General Physics and Astronomy, Molecular orbital, Physical and Theoretical Chemistry, Atomic physics, Electronic energy, Wave function

Abstract

A new measure of orbital localizability is proposed. The actual improvement in classical electrostatic interpretations of electronic energy contributions on localization of CH 4 , NH 3 , H 2 O, HF and Ne LCAO wavefunctions is computed to be small. Substantial valence LMO spatial overlapping remains.

Published

1976

36. Transferability of some properties of localized molecular orbitals

Author

Cornelia Kozmutza, Raymond Daudel, and Ede Kapuy

Subjects

Physics, Computational chemistry, Transferability, Molecular orbital theory, Molecular orbital, Chiropractics, Complete active space, Localized molecular orbitals, Physical and Theoretical Chemistry, Molecular physics, Basis set, Slater-type orbital, Natural bond orbital

Published

1980

37. Moment characterization of localized orbitals

Author

Ede Kapuy, Cornelia Kozmutza, and Michael E. Stephens

Subjects

Non-bonding orbital, Chemistry, Moment (physics), Molecular orbital diagram, Molecular orbital, Chiropractics, Localized molecular orbitals, Physical and Theoretical Chemistry, Atomic physics, Lone pair, Slater-type orbital, Natural bond orbital

Abstract

The parallel between orbital first and second electric moments and statistical first and second central moments is noted. Three measures of orbital spatial distribution in terms of their moments are proposed, and applied to the LMO's in a series of ten-electron hydrides. Consistent differences between bond and lone pair distributions are found. Using the statistical interpretation, for each LMO an “effective” solid angle around the central atom is postulated.

Published

1976

38. Applicability of Almost Strongly Orthogonal Geminals in Many‐Electron Wavefunctions

Author

Ede Kapuy

Subjects

Physics, Orthogonality, Computational chemistry, Quantum mechanics, General Physics and Astronomy, Order (ring theory), Basis function, Electron, Physical and Theoretical Chemistry, Expression (computer science), Differential (infinitesimal), Wave function

Abstract

Assuming that truncated strongly orthogonal geminals for a system are already known, the possibility of using rij‐dependent correction functions in the geminals is discussed with an emphasis on the violation of the strong orthogonality conditions. It is shown that for given truncated geminals there always exists at least one optimally decomposed complete set of one‐electron functions, which makes it possible to pick out the configurations giving rise to strong orthogonality condition violating terms in the energy expression. The latter can be neglected, as compared with others which are of second order in the correction functions, when the system consists of spatially separated pairs in the sense that the one‐electron functions contributing appreciably to one pair do not have significant differential overlap with the starting basis functions of other pairs. In this case interorbital effects are also small. For systems consisting of weakly localizable pairs, when the strong orthogonality condition violatin...

Published

1966

39. Study of localizability for some small molecules

Author

Raymond Daudel, Ede Kapuy, and Cornelia Kozmutza

Subjects

Maxima and minima, Chemistry, General Physics and Astronomy, Physical and Theoretical Chemistry, Atomic physics, Polarization (waves), Small molecule

Abstract

Localized charge densities of some small molecules at their experimental and calculated equilibrium geometries have been studied using the 6-31G and 6-31G/d basis sets. Introducing polarization functions it has been found that the bond-pair charge distributions are “more”, while the lone-pair- ones are “less” localized at their theoretically determined total-energy minima than at the corresponding experimental geometries.

Published

1980

40. Theory of lone pairs. Successive protonations of multi-lone pair bases

Author

Ede Kapuy, R. Daudel, and Cornelia Kozmutza

Subjects

Exothermic reaction, Computational chemistry, Chemistry, General Physics and Astronomy, Protonation, Physical and Theoretical Chemistry, Lone pair, Endothermic process, Gas phase

Abstract

While single protonation is always exothermic in the gas phase multiple protonations are shown to be endothermic. The relevance of these results to acid catalysed reactions is discussed.

Published

1975

41. ChemInform Abstract: GEOMETRY DEPENDENCE OF THE PROTON AFFINITIES IN THE ELECTRONIC GROUND, EXCITED TRIPLET AND IONIZED DOUBLET STATES OF H2CO AND H2COH+

Author

Otto P. Strausz, Michael A. Robb, Cornelia Kozmutza, Ede Kapuy, and Imre G. Csizmadia

Subjects

Bond length, Proton, Chemistry, Excited state, Ionization, Physics::Atomic and Molecular Clusters, Proton affinity, General Medicine, Singlet state, Ionization energy, Atomic physics, Open shell, Astrophysics::Galaxy Astrophysics

Abstract

The ionization potential of the closed shell H2CO, H2COH+, H2COH22+ as well as the proton affinity of H2CO and H2COH+ have been studied at a variable CO bond length in the ground singlet and some of the low lying excited triplet and ionized doublet states.

Published

1982

42. Many-Body Perturbation Theory Based on Localized Orbitals

Author

Ede Kapuy, Zoltan Csepes, and Cornelia Kozmutza

Abstract

Diagrammatic formulmion of the MBPT has been extended to the case when both the occupied orbita'ls and the virtual ones are separately localized, i.e., they are unitary transforms of the · canonical HF orbitals. All diagrams representing ground state correlation energy are generated through the fifth order. For cyclic polyenes C4n+z H4n+z as model systems, in PPP approximation, all perturbation energy corrections through the fourth order have been calculated for a wide range of the coupling constant: (J-1. Some fifth order energy corrections have also been evaluated and the convergence of the localization corrections has been studied. For CsHs the results of the canonical and the localized versions have been compared with those obtained by full CI. We have shown that in the localized representation the energy corrections can be partitioned into local and nonlocal contributions.

Published

1984