Quasi-particle properties: Difference between revisions
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== The HF approximation (yambo -x) == | == The HF approximation (yambo -x) == | ||
As you have seen in the lectures or textbook the GW self-energy is separated into two components named exchange self-energy (Σx) and correlation self-energy (Σc). | As you have seen in the lectures or textbook the GW self-energy is separated into two components named exchange self-energy (Σx) and correlation self-energy (Σc). | ||
We start by evaluating the exchange Self-Energy and the corresponding Quasiparticle energies. It is important to note that this way we are adding the HF contribution to previously calculated DFT energies and hence they will differ from a standard self-consistent HF calculation. | We start by evaluating the exchange Self-Energy and the corresponding Quasiparticle energies (Hartree-Fock energies). It is important to note that this way we are adding the HF contribution to previously calculated DFT energies and hence they will differ from a standard self-consistent HF calculation. |
Revision as of 10:04, 22 March 2017
UNDER CONSTRUCTION (DV)
In this tutorial you will learn how to:
- calculate quasi-particle correction in HF approximation
- calculate quasi-particle correction in GW approximation
- How to choose the input parameter for a meaningful converged calculation
- How to plot a band structure including quasi-particle corrections
Prerequisites
- Complete the Generating the Yambo databases tutorial
SAVE
folder for bulk hBN.yambo
executableypp
executable- Run Initialization
The HF approximation (yambo -x)
As you have seen in the lectures or textbook the GW self-energy is separated into two components named exchange self-energy (Σx) and correlation self-energy (Σc). We start by evaluating the exchange Self-Energy and the corresponding Quasiparticle energies (Hartree-Fock energies). It is important to note that this way we are adding the HF contribution to previously calculated DFT energies and hence they will differ from a standard self-consistent HF calculation.