Two particle excitations: Difference between revisions
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==Tutorial modules:== | ==Tutorial modules:== | ||
* [[How to obtain an optical spectrum]] | This tutorial consists in four parts: | ||
* [[How to choose the input parameters]] | |||
* [[How to treat low dimensional systems]] | On bulk h-BN: | ||
* [[How to plot an exciton function]] | |||
* [[How to obtain an optical spectrum]] - a guide through the workflow of calculations | |||
* [[How to choose the input parameters]] - relevant input parameters you need to determine by convergence studies | |||
On 2D h-BN monolayer: | |||
* [[How to treat low dimensional systems]] - numerical issues and remedies for low dimensional systems | |||
* [[How to plot an exciton function]] - nalysis and visualization of the excitons | |||
Revision as of 15:45, 17 March 2017
This Tutorial: what will you learn
You will learn how to set up and run calculations to get optical absorption spectrum by using the Bethe-Salpeter equation starting from a previously calculated electronic structure. In addition you will learn to use post-processing tools to analyze the excitons and special numerical treatment needed for low dimensional materials.
Before starting: what do you need
Tutorial modules:
This tutorial consists in four parts:
On bulk h-BN:
- How to obtain an optical spectrum - a guide through the workflow of calculations
- How to choose the input parameters - relevant input parameters you need to determine by convergence studies
On 2D h-BN monolayer:
- How to treat low dimensional systems - numerical issues and remedies for low dimensional systems
- How to plot an exciton function - nalysis and visualization of the excitons