Difference between revisions of "ICTP2020"
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==== Monday, 27 January: Excited-state properties in Many-Body Perturbation Theory (MBPT) ==== | ==== Monday, 27 January: Excited-state properties in Many-Body Perturbation Theory (MBPT) ==== | ||
* [ | * [https://drive.google.com/open?id=1kvpz8WuMuk7PpRFHEvbE5JBvabxVU6Ow Description and goals of the school: From theoretical concepts to real computation of the excited states properties of complex materials by first principle] | ||
https://drive.google.com/open?id=1kvpz8WuMuk7PpRFHEvbE5JBvabxVU6Ow | |||
Description and goals of the school: From theoretical concepts to real computation of the excited states properties of complex materials by first principle] | |||
Introduction to Many body perturbation theory | Introduction to Many body perturbation theory | ||
Introduction to Material Science | Introduction to Material Science | ||
Experimental lecture on photoemission spectroscopy | Experimental lecture on photoemission spectroscopy | ||
Beyond the independent particle scheme: The linear response theory | Beyond the independent particle scheme: The linear response theory | ||
==== Tuesday, 28 January: Electronic properties: from DFT to the quasi-particle equation and the GW method ==== | ==== Tuesday, 28 January: Electronic properties: from DFT to the quasi-particle equation and the GW method ==== | ||
Revision as of 09:51, 31 January 2020
Plan for the ICTP 2020 school tutorials
Setting up the Yambo Quantum Machine
The tutorials will be run on a dedicated Quantum Machine. This is run by installing it as Virtual Machine with the VirtualBox program.
- VirtualBox is installed on your PC. To find it open a terminal and
>which virtualbox /usr/bin/virtualbox
- The Yambo Quantum Machine image (.ova file) is already in the /scratch
>cd /scratch >/scratch$ ls (...) YAMBO_Quantum_Mobile.ova
Now follow exactly the instructions to
Monday 27 Jan HANDS-ON 1
14:40 - 17:00 From the DFT ground state to the complete setup of a Many Body calculation using Yambo Davide Sangalli (CNR-ISM, Italy), Pedro Melo (University of Liege, Belgium)
Tuesday 28 Jan HANDS-ON 2
14:00 - 18:00 A complete tour through GW simulation in a complex material (from the blackboard to numerical computation: convergence, algorithms, parallel usage) Daniele Varsano (CNR-NANO, Italy), Andrea Ferretti (CNR-NANO, Italy)
16:30 - 18:00 A complete tour through GW simulation in a complex material (from the blackboard to the computer settings: convergence, algorithms, parallel usage) (continued) Daniele Varsano (CNR-NANO, Italy), Andrea Ferretti (CNR-NANO, Italy)
- 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)
Link to old CECAM specific cases: GW_parallel_strategies_CECAM and Pushing_convergence_in_parallel_CECAM
Wednesday 29 Jan HANDS-ON 3
14:00 - 16:00 A guided tour through calculations of spectroscopic properties using the BSE approach Daniele Varsano (CNR-NANO, Italy), Maurizia Palummo (University of Rome Tor Vergata, Italy)
- Calculating optical spectra including excitonic effects: a step-by-step guide
- Obtaining a converged optical spectrum
16:30 - 18:00 Many-body effects in 2D materials: convergences, exciton characterizations Maurizia Palummo (University of Rome Tor Vergata, Italy), Attaccalite Claudio (CNRS, CINAM, Aix-Marseille Univ., France)
- Many-body effects in low-dimensional systems: numerical issues and remedies
- Analysis of excitonic spectra in a 2D material
Thursday 30 Jan HANDS-ON 4
14:00 - 15:00 Real-time approach and Calculation of linear response functions and optical properties Claudio Attaccalite (CNRS, CINAM, Aix-Marseille Univ., France), Davide Sangalli (CNR-ISM, Italy)
15:30 - 18:00 Real time approach and Calculation of non linear properties (second harmonic generation) Claudio Attaccalite (CNRS, CINAM, Aix-Marseille Univ., France), Davide Sangalli (CNR-ISM, Italy)
Friday 31 Jan HANDS-ON 5
09:00 - 10:30 Python scripting tools for accelerated GW convergence Fulvio Paleari (CNR-ISM, Italy), Alejandro Molina-Sanchez (IINL, Portugal)
10:30 - 11:30 Python scripting tools for BSE convergence and analysis Fulvio Paleari (CNR-ISM, Italy), Pedro Melo
Lectures
Monday, 27 January: Excited-state properties in Many-Body Perturbation Theory (MBPT)
Introduction to Many body perturbation theory Introduction to Material Science Experimental lecture on photoemission spectroscopy Beyond the independent particle scheme: The linear response theory
Tuesday, 28 January: Electronic properties: from DFT to the quasi-particle equation and the GW method
The Quasi Particle concept and the GW method The GW scheme: common approximations and practical implementations High throughput calculations: from DFT to GW
Wednesday, 29 January. Optical properties and the electron-hole interaction
Derivation of the Bethe-Salpeter Equation and main physical concepts The Bethe-Salpeter Equation: common approximations and practical implementations Many Body effects in low dimensional materials
Thursday, 30 January. Real time approaches for linear and non-linear optical propertiers
Real-time Many-Body simulation: propagating the density matrix Real-time Many-Body and Berry phase for non-linear optics (TL)
Friday, 31 January. Python-Scripting with yambopy
Python-scripting: automatization and post processing tools