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Suggested audience: Advanced undergraduates, graduate students, and researchers with basic quantum mechanics and solid-state physics; some command-line and Linux familiarity recommended.

Abstract: A practical, hands-on course introducing ab initio electronic-structure methods for solid-state physics using Quantum ESPRESSO. Covers theoretical foundations (DFT, pseudopotentials, plane-wave basis), practical workflows (self-consistent-field, band structures, density of states, phonons, and total-energy calculations), and applied examples (simple metals, semiconductors, magnetic materials, and defects). Emphasis is on translating physics concepts into reproducible input files, post-processing, convergence strategies, and interpretation of results.

Notes on pedagogy Each chapter should include: learning goals, theory summary, worked examples, complete input files, suggested exercises, and a checklist for verifying results. Encourage reproducibility: include exact pseudopotential filenames, QE version, and OS/compiler where relevant.

Quantum Espresso Course For Solid-state Physics Pdf Apr 2026

Suggested audience: Advanced undergraduates, graduate students, and researchers with basic quantum mechanics and solid-state physics; some command-line and Linux familiarity recommended.

Abstract: A practical, hands-on course introducing ab initio electronic-structure methods for solid-state physics using Quantum ESPRESSO. Covers theoretical foundations (DFT, pseudopotentials, plane-wave basis), practical workflows (self-consistent-field, band structures, density of states, phonons, and total-energy calculations), and applied examples (simple metals, semiconductors, magnetic materials, and defects). Emphasis is on translating physics concepts into reproducible input files, post-processing, convergence strategies, and interpretation of results. Quantum Espresso Course For Solid-state Physics Pdf

Notes on pedagogy Each chapter should include: learning goals, theory summary, worked examples, complete input files, suggested exercises, and a checklist for verifying results. Encourage reproducibility: include exact pseudopotential filenames, QE version, and OS/compiler where relevant. Suggested audience: Advanced undergraduates