WannierTools

2024-07-08 05:09| 来源: 网络整理| 查看: 265

WannierTools#

WannierTools: an open-source software package for novel topological materials

Source on Github : quanshengwu/wannier_tools.

You can find more useful information on website https://www.wanniertools.org.

Aiming to investigate topological properties, electronic structures and transport properties of

Electron systems (Tested)

Phonon systems (Testing)

Join the QQ group to get supports: 709225749

Outline# 1. Updates 2. Preliminaries 2.1. Installation of WannierTools (Linux or Mac) 2.2. Introduction of input files 2.3. Capabilities of WannierTools 2.4. Symmetrization of wannier90_hr.dat New usesful for ir2tb 3. Tutorial: learning WannierTools through examples 3.1. Bi2Se3 (3D strong TI) 3.2. MoS2 (2D QSHE) 3.3. WTe2 (Type II Weyl semimetal) 3.4. IrF4 (Nodal Chain metals) 3.5. FeSi (Weyl point in Phonon system) 4. WannierTools鈥檚 citations upto March 6 2020 Citations#

Please cite this paper when using WannierTools for your researchs:

@article{WU2017, title = "WannierTools : An open-source software package for novel topological materials", journal = "Computer Physics Communications", volume = "224", pages = "405 - 416", year = "2018", issn = "0010-4655", doi = "https://doi.org/10.1016/j.cpc.2017.09.033", url = "http://www.sciencedirect.com/science/article/pii/S0010465517303442", author = "QuanSheng Wu and ShengNan Zhang and Hai-Feng Song and Matthias Troyer and Alexey A. Soluyanov", keywords = "Novel topological materials, Topological number, Surface state, Tight-binding model" } Correspondence#

Please report bugs to wuquansheng at gmail.com.

Licence#

The WannierTools code is licensed under GPLv3. The licence text in the LICENSE file is included in the root directory of the WannierTools distribution.

Authors and contributions#

WannierTools 2.x have been written by :

QuanSheng Wu (EPFL, Switzerland)

ShengNan Zhang (EPFL, Switzerland)

Contributors to the code include:

Changming Yue (IOP CAS, Beijing, China): Tight binding symmetrization, phononTB

Yifei Guan (EPFL, Switzerland): Landau level (2018)

Tiantian Zhang (IOP, CAS, Beijing, China) : phonon LO-TO

Yi Liu (BNU, Beijing, China): Runge-Kutta integration (2018)

Hanqi Pi (IOP CAS, Beijing, China): Anomalous Nerest Effect (2022)

Xiangyu Zhou (IOP CAS, Beijing, China) : Documenetation updated to version 2.6.2 (2022)

Sponsors#

This work was sponsored by the following institutes:

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