This repository contains example codes for the book:
N. T. Hung, A. R. T. Nugraha and R. Saito, Quantum ESPRESSO Course for Solid‑State Physics, Jenny Stanford Publishing, New York, 372 Pages (2022).
DOI: https://doi.org/10.1201/9781003290964
ISBN: 9781003290964 (eBook) & 9789814968379 (Paperback)
QE-SSP
├── gr
│ ├── scf: Total energy and self‐consistent field calculations (Sec. 3.1.1)
│ ├── ecut: Plane‐wave cut‐off energy (Sec. 3.1.2)
│ ├── k-point: k‐points for Brillouin‐zone integration (Sec. 3.1.3)
│ ├── relax: Optimizing atomic positions (Sec. 3.1.4)
│ ├── vc-relax: Optimizing unit cell (Sec. 3.1.5)
│ ├── pps: Selecting pseudopotential (Sec. 3.1.6)
│ ├── smearing: Selecting smearing function and energy (Sec. 3.1.7)
│ ├── rho: Charge density (Sec. 3.2.1)
│ ├── bands: Electronic energy dispersion (Sec. 3.2.2)
│ ├── edos: Electronic density of states (Sec. 3.2.3)
│ ├── pdos: Partial density of states (Sec. 3.2.4)
│ ├── phonon: Phonon dispersion (Sec. 3.3.1)
│ ├── phdos: Phonon density of states (Sec. 3.3.2)
│ ├── elph: Electron‐phonon interaction (Sec. 3.3.3)
│ ├── alpha: Eliashberg spectral function (Sec. 3.3.4)
│ ├── w90: Wannier functions, energy dispersion, and tight‐binding parameters (Sec. 3.6.1)
│ └── pseudo: Pseudopotential files for the C atom
├── mos2
│ ├── optic: Dielectric function, absorption spectra, and joint density of states (Secs. 3.4.2 & 3.4.1)
│ ├── raman: Non‐resonant Raman spectra (Sec. 3.4.3)
│ ├── soc: Spin‐orbit coupling (Sec. 3.5.1)
│ ├── w90: Wannier interpolation for hybrid functional (Sec. 3.6.2)
│ └── pseudo: Pseudopotential files for the Mo and S atoms
├── bi-gr
│ ├── vdw: Van der Waals interaction (Sec. 3.5.2)
│ ├── elec-field: External electric field (Sec. 3.5.3)
│ └── pseudo: Pseudopotential files for the C atom
├── dft-he: A simple DFT‐LDA program for an atom (Sec. 4.14)
├── gete: Quantum ESPRESSO input generators for an example GeTe (Sec. 6.1)
├── scripts: Shell scripts and batch jobs (Sec. 6.3)
└── matplotlib: Creating and using your Matplotlib style (Sec. 6.4.5)
└── cif2vc-relax: Python file for convent CIF file to QE input file for vc-relax
Thank you for using our book, and don't hesitate to contact us using the GitHub discussions page: https://github.com/nguyen-group/QERaman/discussions to ask any questions about the contents of the book, such as difficulty in installation, etc. The erratum of books is also updated on the discussions page.
- Nguyen Tuan Hung
- Ahmad Ridwan Tresna Nugraha
- Riichiro Saito