Journal of the Physical Society of Japan
Online ISSN : 1347-4073
Print ISSN : 0031-9015
ISSN-L : 0031-9015
Krylov Subspace Method for Molecular Dynamics Simulation Based on Large-Scale Electronic Structure Theory
Ryu TakayamaTakeo HoshiTakeo Fujiwara
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Keywords: Krylov subspace, large scale electronic structure calculations, density matrix, tight-binding molecular dynamics, surface reconstruction, parallel computation, hybrid scheme within quantum mechanics
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2004 Volume 73 Issue 6 Pages 1519-1524

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Abstract
For large scale electronic structure calculation, the Krylov subspace method is introduced to calculate the one-body density matrix instead of the eigenstates of given Hamiltonian. This method provides an efficient way to extract the essential character of the Hamiltonian within a limited number of basis set. Its validation is confirmed by the convergence property of the density matrix within the subspace. The following quantities are calculated; energy, force, density of states, and energy spectrum. Molecular dynamics simulation of Si(001) surface reconstruction is examined as an example, and the results reproduce the mechanism of asymmetric surface dimer.
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© The Physical Society of Japan 2004
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