Journal of Chemical Physics, volume 152, issue 12, pages 124101

DFTB+, a software package for efficient approximate density functional theory based atomistic simulations

B. Hourahine ¹

B. Aradi ²

V. Blum ³

F Bonafé ⁴

A Buccheri ⁵

Cristopher Camacho ⁶

C Cevallos ⁶

M Y Deshaye ⁷

Traian Dumitrică ⁸

A. Dominguez ^{2, 9}

Stefan Grimme ¹⁰

M. Elstner ¹¹

T. van der Heide ²

Jan Hermann ¹²

Stephan Irle ¹³

J J Kranz ¹¹

C. Köhler ²

Tim Kowalczyk ⁷

Tomáš Kubař ¹¹

I. S. Lee ¹⁴

V. Lutsker ¹⁵

Reinhard Maurer ¹⁶

Seung Kyu Min ¹⁴

I Mitchell ¹⁷

C Negre ¹⁸

T.A. Niehaus ¹⁹

Anders M. N. Niklasson ¹⁸

Alister J. Page ²⁰

Gianaurelio Cuniberti ²¹

Gabriele Penazzi ²

M P Persson ²²

J Řezáč ²³

Cristian Sanchez ²⁴

M. Sternberg ²⁵

Martin Stöhr ²⁶

F Stuckenberg ²

A. TKATCHENKO ²⁶

V W Z Yu ³

T Frauenheim ^{2, 9}

Show full list: 39 authors

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SUPA, Department of Physics, The University of Strathclyde 1 , Glasgow G4 0NG, United Kingdom |

Bremen Center for Computational Materials Science, University of Bremen 2 , Bremen, Germany |

Department of Mechanical Engineering and Materials Science, Duke University 3 , Durham, North Carolina 27708, USA |

⁴

Max Planck Institute for the Structure and Dynamics of Matter 4 , Hamburg, Germany |

⁵

School of Chemistry, University of Bristol 5 , Cantock’s Close, Bristol BS8 1TS, United Kingdom |

⁶

School of Chemistry, University of Costa Rica 6 , San José 11501-2060, Costa Rica |

⁷

Department of Chemistry and Advanced Materials Science and Engineering Center, Western Washington University 7 , Bellingham, Washington 98225, USA |

⁸

Department of Mechanical Engineering, University of Minnesota 8 , Minneapolis, Minnesota 55455, USA |

⁹

Computational Science Research Center (CSRC) Beijing and Computational Science Applied Research (CSAR) Institute Shenzhen 9 , Shenzhen, China |

¹⁰

University of Bonn 10 , Bonn, Germany |

¹¹

Institute of Physical Chemistry, Karlsruhe Institute of Technology 11 , Karlsruhe, Germany |

¹²

Freie Universität Berlin 12 , Berlin, Germany |

¹³

Computational Sciences and Engineering Division, Oak Ridge National Laboratory 13 , Oak Ridge, Tennessee 37831, USA |

¹⁴

Department of Chemistry, Ulsan National Institute of Science and Technology 14 , Ulsan, South Korea |

¹⁵

Institut I – Theoretische Physik, University of Regensburg 15 , Regensburg, Germany |

¹⁶

Department of Chemistry, University of Warwick 16 , Gibbet Hill Road, Coventry CV4 7AL, United Kingdom |

¹⁷

Center for Multidimensional Carbon Materials, Institute for Basic Science (IBS) 17 , Ulsan 44919, South Korea |

¹⁸

Theoretical Division, Los Alamos National Laboratory 18 , Los Alamos, New Mexico 87545, USA

¹⁹

Université de Lyon, Université Claude Bernard Lyon 1, CNRS, Institut Lumière Matière 19 , F-69622 Villeurbanne, France |

²⁰

School of Environmental and Life Sciences, University of Newcastle 20 , Callaghan, Australia |

²¹

CNR-ISMN 21 , Via Salaria km 29.300, 00015 Monterotondo Stazione, Rome, Italy |

²²

Dassault Systemes 22 , Cambridge, United Kingdom |

²³

Institute of Organic Chemistry and Biochemistry AS CR 23 , Prague, Czech Republic |

²⁴

Instituto Interdisciplinario de Ciencias Básicas, Universidad Nacional de Cuyo, CONICET, Facultad de Ciencias Exactas y Naturales 24 , Mendoza, Argentina |

²⁵

Argonne National Laboratory 25 , Lemont, Illinois 60439, USA |

²⁶

Department of Physics and Materials Science, University of Luxembourg 26 , L-1511 Luxembourg City, Luxembourg |

Publication type: Journal Article

Publication date: 2020-03-23

AIP Publishing

Journal: Journal of Chemical Physics

scimago Q1

wos Q1

SJR: 1.101

CiteScore: 7.4

Impact factor: 3.1

ISSN: 00219606, 10897690

DOI: 10.1063/1.5143190

Copy DOI

Physical and Theoretical Chemistry

General Physics and Astronomy

Abstract

DFTB+ is a versatile community developed open source software package offering fast and efficient methods for carrying out atomistic quantum mechanical simulations. By implementing various methods approximating density functional theory (DFT), such as the density functional based tight binding (DFTB) and the extended tight binding method, it enables simulations of large systems and long timescales with reasonable accuracy while being considerably faster for typical simulations than the respective ab initio methods. Based on the DFTB framework, it additionally offers approximated versions of various DFT extensions including hybrid functionals, time dependent formalism for treating excited systems, electron transport using non-equilibrium Green’s functions, and many more. DFTB+ can be used as a user-friendly standalone application in addition to being embedded into other software packages as a library or acting as a calculation-server accessed by socket communication. We give an overview of the recently developed capabilities of the DFTB+ code, demonstrating with a few use case examples, discuss the strengths and weaknesses of the various features, and also discuss on-going developments and possible future perspectives.

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