Ab initio studies of the electronic structure of Be93, Be105, Be111, and Be123 clusters
Ross, R. B. ; Kern, C. W. ; Pitzer, R. M. ; Ermler, W. C.
New York, NY : Wiley-Blackwell
Published 1995
New York, NY : Wiley-Blackwell
Published 1995
| ISSN: |
0020-7608
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|---|---|
| Keywords: |
Computational Chemistry and Molecular Modeling ; Atomic, Molecular and Optical Physics
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| Source: |
Wiley InterScience Backfile Collection 1832-2000
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| Topics: |
Chemistry and Pharmacology
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| Notes: |
Ab initio self-consistent-field calculations are reported for electronic states of beryllium clusters comprised of 93, 105, 111, and 123 atoms. The respective clusters correspond to coordination shells 12-15 of a central Be atom with internuclear separations derived from the lattice constants of the bulk metal. Ab initio effective core potentials have been employed to replace the 1 s electrons, thereby reducing the complexity of the calculations. In addition, use of the full D3h point group symmetry of the clusters results in a substantial reduction of the numbers of two-electron integrals that must be computed and processed. Binding energies, orbital energies, electric field gradient, nuclear-electrostatic potential, diamagnetic shielding constant, second moments, and Mulliken populations are calculated for selected electronic states. Calculated binding energies when compared among the different clusters as well as to smaller and larger fragments from earlier studies provide evidence for the onset of convergence to the Hartree-Fock limit of the bulk. Lowest-state ionization potentials are consistently above and agree to within 14% of the experimental workfunction. The net charge on the central beryllium atom decreases toward zero. The variability of observed bulklike behavior for the different properties indicates that the transition between cluster and bulklike behavior is not sharp and depends on the quantity of interest. © 1995 John Wiley & Sons, Inc.
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| Additional Material: |
8 Ill.
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| Type of Medium: |
Electronic Resource
|
| URL: |
| _version_ | 1798297958524911617 |
|---|---|
| addmaterial | 8 Ill. |
| autor | Ross, R. B. Kern, C. W. Pitzer, R. M. Ermler, W. C. |
| autorsonst | Ross, R. B. Kern, C. W. Pitzer, R. M. Ermler, W. C. |
| book_url | http://dx.doi.org/10.1002/qua.560550504 |
| datenlieferant | nat_lic_papers |
| hauptsatz | hsatz_simple |
| identnr | NLM162738455 |
| issn | 0020-7608 |
| journal_name | International Journal of Quantum Chemistry |
| materialart | 1 |
| notes | Ab initio self-consistent-field calculations are reported for electronic states of beryllium clusters comprised of 93, 105, 111, and 123 atoms. The respective clusters correspond to coordination shells 12-15 of a central Be atom with internuclear separations derived from the lattice constants of the bulk metal. Ab initio effective core potentials have been employed to replace the 1 s electrons, thereby reducing the complexity of the calculations. In addition, use of the full D3h point group symmetry of the clusters results in a substantial reduction of the numbers of two-electron integrals that must be computed and processed. Binding energies, orbital energies, electric field gradient, nuclear-electrostatic potential, diamagnetic shielding constant, second moments, and Mulliken populations are calculated for selected electronic states. Calculated binding energies when compared among the different clusters as well as to smaller and larger fragments from earlier studies provide evidence for the onset of convergence to the Hartree-Fock limit of the bulk. Lowest-state ionization potentials are consistently above and agree to within 14% of the experimental workfunction. The net charge on the central beryllium atom decreases toward zero. The variability of observed bulklike behavior for the different properties indicates that the transition between cluster and bulklike behavior is not sharp and depends on the quantity of interest. © 1995 John Wiley & Sons, Inc. |
| package_name | Wiley-Blackwell |
| publikationsjahr_anzeige | 1995 |
| publikationsjahr_facette | 1995 |
| publikationsjahr_intervall | 8004:1995-1999 |
| publikationsjahr_sort | 1995 |
| publikationsort | New York, NY |
| publisher | Wiley-Blackwell |
| reference | 55 (1995), S. 393-410 |
| schlagwort | Computational Chemistry and Molecular Modeling Atomic, Molecular and Optical Physics |
| search_space | articles |
| shingle_author_1 | Ross, R. B. Kern, C. W. Pitzer, R. M. Ermler, W. C. |
| shingle_author_2 | Ross, R. B. Kern, C. W. Pitzer, R. M. Ermler, W. C. |
| shingle_author_3 | Ross, R. B. Kern, C. W. Pitzer, R. M. Ermler, W. C. |
| shingle_author_4 | Ross, R. B. Kern, C. W. Pitzer, R. M. Ermler, W. C. |
| shingle_catch_all_1 | Ross, R. B. Kern, C. W. Pitzer, R. M. Ermler, W. C. Ab initio studies of the electronic structure of Be93, Be105, Be111, and Be123 clusters Computational Chemistry and Molecular Modeling Atomic, Molecular and Optical Physics Computational Chemistry and Molecular Modeling Atomic, Molecular and Optical Physics Ab initio self-consistent-field calculations are reported for electronic states of beryllium clusters comprised of 93, 105, 111, and 123 atoms. The respective clusters correspond to coordination shells 12-15 of a central Be atom with internuclear separations derived from the lattice constants of the bulk metal. Ab initio effective core potentials have been employed to replace the 1 s electrons, thereby reducing the complexity of the calculations. In addition, use of the full D3h point group symmetry of the clusters results in a substantial reduction of the numbers of two-electron integrals that must be computed and processed. Binding energies, orbital energies, electric field gradient, nuclear-electrostatic potential, diamagnetic shielding constant, second moments, and Mulliken populations are calculated for selected electronic states. Calculated binding energies when compared among the different clusters as well as to smaller and larger fragments from earlier studies provide evidence for the onset of convergence to the Hartree-Fock limit of the bulk. Lowest-state ionization potentials are consistently above and agree to within 14% of the experimental workfunction. The net charge on the central beryllium atom decreases toward zero. The variability of observed bulklike behavior for the different properties indicates that the transition between cluster and bulklike behavior is not sharp and depends on the quantity of interest. © 1995 John Wiley & Sons, Inc. 0020-7608 00207608 Wiley-Blackwell |
| shingle_catch_all_2 | Ross, R. B. Kern, C. W. Pitzer, R. M. Ermler, W. C. Ab initio studies of the electronic structure of Be93, Be105, Be111, and Be123 clusters Computational Chemistry and Molecular Modeling Atomic, Molecular and Optical Physics Computational Chemistry and Molecular Modeling Atomic, Molecular and Optical Physics Ab initio self-consistent-field calculations are reported for electronic states of beryllium clusters comprised of 93, 105, 111, and 123 atoms. The respective clusters correspond to coordination shells 12-15 of a central Be atom with internuclear separations derived from the lattice constants of the bulk metal. Ab initio effective core potentials have been employed to replace the 1 s electrons, thereby reducing the complexity of the calculations. In addition, use of the full D3h point group symmetry of the clusters results in a substantial reduction of the numbers of two-electron integrals that must be computed and processed. Binding energies, orbital energies, electric field gradient, nuclear-electrostatic potential, diamagnetic shielding constant, second moments, and Mulliken populations are calculated for selected electronic states. Calculated binding energies when compared among the different clusters as well as to smaller and larger fragments from earlier studies provide evidence for the onset of convergence to the Hartree-Fock limit of the bulk. Lowest-state ionization potentials are consistently above and agree to within 14% of the experimental workfunction. The net charge on the central beryllium atom decreases toward zero. The variability of observed bulklike behavior for the different properties indicates that the transition between cluster and bulklike behavior is not sharp and depends on the quantity of interest. © 1995 John Wiley & Sons, Inc. 0020-7608 00207608 Wiley-Blackwell |
| shingle_catch_all_3 | Ross, R. B. Kern, C. W. Pitzer, R. M. Ermler, W. C. Ab initio studies of the electronic structure of Be93, Be105, Be111, and Be123 clusters Computational Chemistry and Molecular Modeling Atomic, Molecular and Optical Physics Computational Chemistry and Molecular Modeling Atomic, Molecular and Optical Physics Ab initio self-consistent-field calculations are reported for electronic states of beryllium clusters comprised of 93, 105, 111, and 123 atoms. The respective clusters correspond to coordination shells 12-15 of a central Be atom with internuclear separations derived from the lattice constants of the bulk metal. Ab initio effective core potentials have been employed to replace the 1 s electrons, thereby reducing the complexity of the calculations. In addition, use of the full D3h point group symmetry of the clusters results in a substantial reduction of the numbers of two-electron integrals that must be computed and processed. Binding energies, orbital energies, electric field gradient, nuclear-electrostatic potential, diamagnetic shielding constant, second moments, and Mulliken populations are calculated for selected electronic states. Calculated binding energies when compared among the different clusters as well as to smaller and larger fragments from earlier studies provide evidence for the onset of convergence to the Hartree-Fock limit of the bulk. Lowest-state ionization potentials are consistently above and agree to within 14% of the experimental workfunction. The net charge on the central beryllium atom decreases toward zero. The variability of observed bulklike behavior for the different properties indicates that the transition between cluster and bulklike behavior is not sharp and depends on the quantity of interest. © 1995 John Wiley & Sons, Inc. 0020-7608 00207608 Wiley-Blackwell |
| shingle_catch_all_4 | Ross, R. B. Kern, C. W. Pitzer, R. M. Ermler, W. C. Ab initio studies of the electronic structure of Be93, Be105, Be111, and Be123 clusters Computational Chemistry and Molecular Modeling Atomic, Molecular and Optical Physics Computational Chemistry and Molecular Modeling Atomic, Molecular and Optical Physics Ab initio self-consistent-field calculations are reported for electronic states of beryllium clusters comprised of 93, 105, 111, and 123 atoms. The respective clusters correspond to coordination shells 12-15 of a central Be atom with internuclear separations derived from the lattice constants of the bulk metal. Ab initio effective core potentials have been employed to replace the 1 s electrons, thereby reducing the complexity of the calculations. In addition, use of the full D3h point group symmetry of the clusters results in a substantial reduction of the numbers of two-electron integrals that must be computed and processed. Binding energies, orbital energies, electric field gradient, nuclear-electrostatic potential, diamagnetic shielding constant, second moments, and Mulliken populations are calculated for selected electronic states. Calculated binding energies when compared among the different clusters as well as to smaller and larger fragments from earlier studies provide evidence for the onset of convergence to the Hartree-Fock limit of the bulk. Lowest-state ionization potentials are consistently above and agree to within 14% of the experimental workfunction. The net charge on the central beryllium atom decreases toward zero. The variability of observed bulklike behavior for the different properties indicates that the transition between cluster and bulklike behavior is not sharp and depends on the quantity of interest. © 1995 John Wiley & Sons, Inc. 0020-7608 00207608 Wiley-Blackwell |
| shingle_title_1 | Ab initio studies of the electronic structure of Be93, Be105, Be111, and Be123 clusters |
| shingle_title_2 | Ab initio studies of the electronic structure of Be93, Be105, Be111, and Be123 clusters |
| shingle_title_3 | Ab initio studies of the electronic structure of Be93, Be105, Be111, and Be123 clusters |
| shingle_title_4 | Ab initio studies of the electronic structure of Be93, Be105, Be111, and Be123 clusters |
| sigel_instance_filter | dkfz geomar wilbert ipn albert |
| source_archive | Wiley InterScience Backfile Collection 1832-2000 |
| timestamp | 2024-05-06T10:16:15.642Z |
| titel | Ab initio studies of the electronic structure of Be93, Be105, Be111, and Be123 clusters |
| titel_suche | Ab initio studies of the electronic structure of Be93, Be105, Be111, and Be123 clusters |
| topic | V |
| uid | nat_lic_papers_NLM162738455 |