Hexagonal-BN: Difference between revisions
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* How to obtain the quasi-particle band structure of a bulk material: h-BN | ====Introduction==== | ||
* GW_parallel_strategies| | * [[First steps: a walk through from DFT to optical properties]] | ||
* Pushing_convergence_in_parallel|- | ====Quasiparticles in the GW approximation==== | ||
* How to obtain an optical spectrum|- | * [[How to obtain the quasi-particle band structure of a bulk material: h-BN]] | ||
* How to choose the input parameters| | ====Using Yambo in Parallel==== | ||
* How to treat low dimensional systems|- | * [[GW_parallel_strategies|Parallel GW]]: strategies for running Yambo in parallel | ||
* How to analyse excitons|-> | * [[Pushing_convergence_in_parallel|GW convergence]]: use Yambo in parallel to converge a GW calculation for a layer of hBN (hBN-2D) | ||
* First steps in Yambopy | |||
====Excitons and the Bethe-Salpeter Equation==== | |||
* [[How to obtain an optical spectrum|Calculating optical spectra including excitonic effects: a step-by-step guide]] | |||
* [[How to choose the input parameters|Obtaining a converged optical spectrum]] | |||
* [[How to treat low dimensional systems|Many-body effects in low-dimensional systems: numerical issues and remedies]] | |||
* [[How to analyse excitons|Analysis of excitonic spectra in a 2D material]] | |||
<!--* [[Two particle excitations]] (try to bypass this page) : Learn how to set up and run calculations to obtain and analyze an optical absorption spectrum of bulk and low dimension materials by using the Bethe-Salpeter equation--> | |||
====Yambo-python driver==== | |||
* [[First steps in Yambopy]] | |||
* [[GW tutorial. Convergence and approximations (BN)]] | |||
* [[Bethe-Salpeter equation tutorial. Optical absorption (BN)]] | |||
====Real-time simulations==== | |||
* [[Breaking of symmetries]] | |||
* [[Independent-Particle Approximation Dynamics. Delta Pulse]] | |||
* [[Post-processing. Optical Response]] | |||
Revision as of 09:56, 23 October 2019
Introduction
Quasiparticles in the GW approximation
Using Yambo in Parallel
- Parallel GW: strategies for running Yambo in parallel
- GW convergence: use Yambo in parallel to converge a GW calculation for a layer of hBN (hBN-2D)
Excitons and the Bethe-Salpeter Equation
- Calculating optical spectra including excitonic effects: a step-by-step guide
- Obtaining a converged optical spectrum
- Many-body effects in low-dimensional systems: numerical issues and remedies
- Analysis of excitonic spectra in a 2D material
Yambo-python driver
- First steps in Yambopy
- GW tutorial. Convergence and approximations (BN)
- Bethe-Salpeter equation tutorial. Optical absorption (BN)