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Large-scale electronic structure calculation theory and applications to nanostructure materials |
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| Authors: | Takeo Fujiwara Takeo Hoshi |
| Affiliation: | a Center for Research and Development of Higher Education, The University of Tokyo, Bunkyo-ku, Tokyo 113-8656, Japan b Core Research for Evolutional Science and Technology, Japan Science and Technology Agency (CREST-JST), Japan c Department of Applied Mathematics and Physics, Tottori University, Tottori 680-8550, Japan |
| Abstract: | We review our recently developed methods in large-scale electronic structure calculations. The calculation is based on the tight-binding formalism of the Hamiltonian. First, the mathematical foundation of Krylov subspace method is focused. The density matrix can be calculated exactly and the numerical accuracy can be monitored during the iterative calculation. The key technique of the shifted-COCG (conjugate orthogonal conjugate gradient) method, collinear residual and seed switching, is explained in details. Second, several applications to nanostructure of semiconductors and metals, fracture propagation and surface reconstruction and formation process of gold nanowire, are explained. |
| Keywords: | Large-scale electronic structure calculation Nanostructure materials Molecular dynamics Order-N method Krylov subspace theory Fracture Helical multi-shell nanowire Silicon Gold |
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