Extended Lagrangian Density Functional Tight-Binding Molecular Dynamics for Molecules and Solids

A computationally fast quantum mechanical molecular dynamics scheme using an extended Lagrangian density functional tight-binding formulation has been developed and implemented in the DFTB+ electronic structure program package for simulations of solids and molecular systems. The scheme combines the...

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Veröffentlicht in:	Journal of chemical theory and computation 2015-07, Vol.11 (7), p.3357-3363
Hauptverfasser:	Aradi, Bálint, Niklasson, Anders M. N, Frauenheim, Thomas
Format:	Artikel
Sprache:	eng
Schlagworte:	ATOMIC AND MOLECULAR PHYSICS Born-Oppenheimer molecular dynamics density functional tight-binding extended Lagrangian MATERIALS SCIENCE
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container_end_page	3363
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container_title	Journal of chemical theory and computation
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creator	Aradi, Bálint Niklasson, Anders M. N Frauenheim, Thomas
description	A computationally fast quantum mechanical molecular dynamics scheme using an extended Lagrangian density functional tight-binding formulation has been developed and implemented in the DFTB+ electronic structure program package for simulations of solids and molecular systems. The scheme combines the computational speed of self-consistent density functional tight-binding theory with the efficiency and long-term accuracy of extended Lagrangian Born–Oppenheimer molecular dynamics. For systems without self-consistent charge instabilities, only a single diagonalization or construction of the single-particle density matrix is required in each time step. The molecular dynamics simulation scheme can be applied to a broad range of problems in materials science, chemistry, and biology.
doi_str_mv	10.1021/acs.jctc.5b00324
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subjects	ATOMIC AND MOLECULAR PHYSICS Born-Oppenheimer molecular dynamics density functional tight-binding extended Lagrangian MATERIALS SCIENCE
title	Extended Lagrangian Density Functional Tight-Binding Molecular Dynamics for Molecules and Solids
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