Document Details
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Document Type |
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Article In Journal |
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Document Title |
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Variational fractional-spin density-functional theory for diradicals Variational fractional-spin density-functional theory for diradicals |
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Subject |
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physics |
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Document Language |
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English |
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Abstract |
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Accurate computation of singlet-triplet energy gaps of diradicals remains a challenging problem in density-functional theory (DFT). In this work, we propose a variational extension of our previous work [D. H. Ess, E. R. Johnson, X. Q. Hu, and W. T. Yang, J. Phys. Chem. A 115, 76 (2011)], which applied fractional-spin density-functional theory (FS-DFT) to diradicals. The original FS-DFT approach assumed equal spin-orbital occupancies of 0.5 alpha-spin and 0.5 beta-spin for the two degenerate, or nearly degenerate, frontier orbitals. In contrast, the variational approach (VFS-DFT) optimizes the total energy of a singlet diradical with respect to the frontier-orbital occupation numbers, based on a full configuration-interaction picture. It is found that the optimal occupation numbers are exactly 0.5 alpha-spin and 0.5 beta-spin for diradicals such as O-2, where the frontier orbitals belong to the same multidimensional irreducible representation, and VFS-DFT reduces to FS-DFT for these cases. However, for diradicals where the frontier orbitals do not belong to the same irreducible representation, the optimal occupation numbers can vary between 0 and 1. Furthermore, analysis of CH2 by VFS-DFT and FS-DFT captures the (1)A(1) and B-1(1) states, respectively. Finally, because of the static correlation error in commonly used density functional approximations, both VFS-DFT and FS-DFT calculations significantly overestimate the singlet-triplet energy gaps for disjoint diradicals, such as cyclobutadiene, in which the frontier orbitals are confined to separate atomic centers |
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ISSN |
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0021-9606 |
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Journal Name |
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JOURNAL OF CHEMICAL PHYSICS |
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Volume |
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137 |
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Issue Number |
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11 |
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Publishing Year |
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1433 AH
2012 AD |
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Article Type |
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Article |
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Added Date |
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Sunday, July 23, 2017 |
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Researchers
| Degao Peng | Peng, Degao | Investigator | Doctorate | dhe@chem.byu.edu |
| Xiangqian Hu, | Hu, Xiangqian | Researcher | Doctorate | |
| Deepa Devarajan | Devarajan, Deepa | Researcher | Doctorate | |
| Daniel H Ess | Ess, Daniel H | Researcher | Doctorate | |
| Erin R Johnson | Johnson, Erin R | Researcher | Doctorate | |
| Weitao Yang | Yang, Weitao | Researcher | Doctorate | |
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