English

Efficient implementation of a van der Waals density functional: Application to double-wall carbon nanotubes

Materials Science 2013-05-29 v1
Authors: Guillermo Roman-Perez , Jose M. Soler
View on arXiv PDF DOI

Abstract

We present an efficient implementation of the van der Waals density functional of Dion et al [Phys. Rev. Lett. 92, 246401 (2004)], which expresses the nonlocal correlation energy as a double spacial integral. We factorize the integration kernel and use fast Fourier transforms to evaluate the selfconsistent potential, total energy, and atomic forces, in N log(N) operations. The resulting overhead in total computational cost, over semilocal functionals, is very moderate for medium and large systems. We apply the method to calculate the binding energies and the barriers for relative translation and rotation in double-wall carbon nanotubes.

Keywords

van der waals heterostructures density functional theory density functional theory and electronic structure

Cite

@article{arxiv.0812.0244,
  title  = {Efficient implementation of a van der Waals density functional: Application to double-wall carbon nanotubes},
  author = {Guillermo Roman-Perez and Jose M. Soler},
  journal= {arXiv preprint arXiv:0812.0244},
  year   = {2013}
}

Comments

4 pages, 1 figure, 1 table

Related papers

View all related →
Materials Science · Physics
A Higher-Accuracy van der Waals Density Functional
Kyuho Lee, Éamonn D. Murray, Lingzhu Kong, Bengt I. Lundqvist +1
2010-08-17
Chemical Physics · Physics
Nonlocal van der Waals density functional: The simpler the better
Oleg A. Vydrov, Troy Van Voorhis
2010-12-27
Mesoscale and Nanoscale Physics · Physics
Ab Initio Calculations of the Walls Shear Strength of Carbon Nanotubes
E. Bichoutskaia, O. V. Ershova, Yu. E. Lozovik, A. M. Popov
2015-05-14
Materials Science · Physics
Nature and strength of bonding in a crystal of semiconducting nanotubes: van der Waals density functional calculations and analytical results
Jesper Kleis, Elsebeth Schroder, Per Hyldgaard
2009-11-13
Materials Science · Physics
Van der Waals density functional: Self-consistent potential and the nature of the van der Waals bond
T. Thonhauser, Valentino R. Cooper, Shen Li, Aaron Puzder +2
2011-11-09
Mesoscale and Nanoscale Physics · Physics
van der Waals energy under strong atom-field coupling in doped carbon nanotubes
Igor Bondarev, Philippe Lambin
2015-06-24
Computational Physics · Physics
Application of Van Der Waals Density Functionals to Two Dimensional Systems Based on a Mixed Basis Approach
Chung-Yuan Ren, Yia-Chung Chang, Chen-Shiung Hsue
2017-12-27
Materials Science · Physics
Van der Waals Density Functional for General Geometries
M. Dion, H. Rydberg, E. Schroder, D. C. Langreth +1
2009-11-10
Materials Science · Physics
Van der Waals Density Functional for Layered Structures
H. Rydberg, M. Dion, N. Jacobson, E. Schroder +4
2009-11-10
Chemical Physics · Physics
Interpretation of van der Waals density functionals
Per Hyldgaard, Kristian Berland, Elsebeth Schröder
2015-06-22
Chemical Physics · Physics
Nonlocal van der Waals density functional made faster
Dimitri N. Laikov
2026-01-21
Mesoscale and Nanoscale Physics · Physics
Ab initio study of edge effect on relative motion of walls in carbon nanotubes
Andrey M. Popov, Irina V. Lebedeva, Andrey A. Knizhnik, Yurii E. Lozovik +1
2015-06-15
Materials Science · Physics
Application of van der Waals Density Functional to an Extended System: Adsorption of Benzene and Naphthalene on Graphite
Svetla D. Chakarova Kack, Elsebeth Schroder, Bengt I. Lundqvist, David C. Langreth
2009-11-11
Chemical Physics · Physics
Nonlocal van der Waals functionals: The case of rare-gas dimers and solids
Fabien Tran, Jürg Hutter
2013-08-07
Materials Science · Physics
Van der Waals interactions of parallel and concentric nanotubes
Elsebeth Schroder, Per Hyldgaard
2009-11-10
Strongly Correlated Electrons · Physics
Signatures of van der Waals binding: a coupling-constant scaling analysis
Yang Jiao, Elsebeth Schröder, Per Hyldgaard
2018-02-21
Materials Science · Physics
A van der Waals density functional for solids
Torbjörn Björkman
2012-10-09
Quantum Physics · Physics
A functional approach to the Van der Waals interaction
C. D. Fosco, G. Hansen
2023-07-19
Mesoscale and Nanoscale Physics · Physics
van der Waals coupling in atomically doped carbon nanotubes
I. V. Bondarev, Ph. Lambin
2015-06-24
Materials Science · Physics
Van der Waals interaction between two crossed carbon nanotubes
Alexander I. Zhbanov, Evgeny G. Pogorelov, Yia-Chung Chang
2008-11-04
Materials Science · Physics
Benchmarking van der Waals Density Functionals with Experimental Data: Potential Energy Curves for H2 Molecules on Cu(111), (100), and (110) Surfaces
Kyuho Lee, Kristian Berland, Mina Yoon, Stig Andersson +3
2015-06-05
Materials Science · Physics
Nonlocal van der Waals functionals for solids: Choosing an appropriate one
Fabien Tran, Leila Kalantari, Boubacar Traoré, Xavier Rocquefelte +1
2019-06-07
Materials Science · Physics
Force and energy dissipation variations in non-contact atomic force spectroscopy on composite carbon nanotube systems
A. Ilie, J. S. Bendall, O. Kubo, J. Sloan +1
2009-11-11
Materials Science · Physics
Electronic and Quantum Transport Properties of Substitutionally Doped Double-Walled Carbon Nanotubes
Alejandro Lopez-Bezanilla
2016-03-24
Materials Science · Physics
Van der Waals density functionals applied to solids
Jiří Klimeš, David R. Bowler, Angelos Michaelides
2013-01-30
R2 v1 2026-06-21T11:47:02.641Z