ICAMM Rennes 2019: Difference between revisions
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== Further Examples == | == Further Examples == | ||
==== | ==== Nudge Elastic Band Method and constrained Molecular Dynamics ==== | ||
*[[Liquid Si - Standard MD]] | |||
*[[Transition State Search of Ammonia]] | *[[Transition State Search of Ammonia]] | ||
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*[[Adsorption of H2O on TiO2]] | *[[Adsorption of H2O on TiO2]] | ||
==== Magnetism in NiO ==== | ==== Magnetism in NiO ==== |
Revision as of 17:50, 24 June 2019
Lectures
- DFT, PW, and PAW: "VASP: The basics(1). DFT, plane waves, PAW, ...".
- electronic convergence, BZ sampling: "VASP: The basics(2). electronic convergence, BZ sampling ...".
- structure relaxation, MD: "VASP: The basics(3). structure relaxation, phonons, MD...".
- Hybrid functionals: "VASP: Hybrid functionals".
- Dielectric properties: "VASP: Dielectric response. Perturbation theory, linear response, and finite electric fields".
- Beyond DFT: RPA: "VASP: beyond DFT. The Random-Phase-Approximation".
- BSE: "VASP: Beyond DFT. The Bethe-Salpeter Equation".
- Magnetism: "Magnetism: Spin-orbit coupling, magnetic exchange and anisotropy".
Tutorials
- Atoms and Molecules
- Simple Bulk Systems
- A bit of Surface Science
- Hybrid Functionals
- Optical Properties and Dielectric Response
- The Random-Phase-Approximation: GW and ACFDT
- The Bethe-Salpeter equation
- Magnetism
Further Examples
Nudge Elastic Band Method and constrained Molecular Dynamics
Magnetism in NiO
NMR calculations
- From Atoms to Bulk systems: A description of the examples "Atoms and molecules" and "Simple bulk systems".
- Dielectric properties and RPA: A description of the examples "Dielectric properties and RPA".