User contributions for Giacomo.sesti

7 May 2023

• 15:0615:06, 7 May 2023 diff hist 0‎ Quasi-particles of a 2D system ‎No edit summary
• 15:0515:05, 7 May 2023 diff hist −5‎ Quasi-particles of a 2D system ‎No edit summary
• 15:0515:05, 7 May 2023 diff hist +57‎ Quasi-particles of a 2D system ‎No edit summary
• 15:0315:03, 7 May 2023 diff hist 0‎ Quasi-particles of a 2D system ‎No edit summary
• 15:0215:02, 7 May 2023 diff hist −12‎ Quasi-particles of a 2D system ‎No edit summary
• 15:0115:01, 7 May 2023 diff hist −4‎ Quasi-particles of a 2D system ‎No edit summary
• 15:0115:01, 7 May 2023 diff hist +2‎ Quasi-particles of a 2D system ‎No edit summary
• 15:0015:00, 7 May 2023 diff hist +1‎ Quasi-particles of a 2D system ‎No edit summary
• 15:0015:00, 7 May 2023 diff hist −2‎ Quasi-particles of a 2D system ‎No edit summary
• 15:0015:00, 7 May 2023 diff hist +3‎ Quasi-particles of a 2D system ‎No edit summary
• 14:5914:59, 7 May 2023 diff hist +8‎ Quasi-particles of a 2D system ‎No edit summary

4 May 2023

• 16:4016:40, 4 May 2023 diff hist +3‎ Quasi-particles of a 2D system ‎ →‎Step 1: Initialization
• 16:3916:39, 4 May 2023 diff hist −11‎ Quasi-particles of a 2D system ‎ →‎Step 1: Initialization
• 16:2616:26, 4 May 2023 diff hist +1,251‎ N Quasi-particles of a 2D system ‎ Created page with "In this tutorial you will compute the quasiparticle corrections to the band structure of a free-standing single layer of MoS2. Aim of the tutorial is to learn how to efficiently run a GW simulation in a 2D material based on: -Acceleration techniques of GW in 2D systems -Parallelization techniques In the end, you will obtain a quasiparticle band structure based on the simulations, the first step towards the reproduction of an ARPES spectrum. Beware: we won’t use fully..."
• 15:4915:49, 4 May 2023 diff hist +24‎ Rome 2023 ‎No edit summary
• 15:4815:48, 4 May 2023 diff hist +1‎ Rome 2023 ‎No edit summary
• 15:4815:48, 4 May 2023 diff hist +101‎ Rome 2023 ‎No edit summary
• 15:3715:37, 4 May 2023 diff hist +8‎ GW on h-BN (standalone) ‎No edit summary
• 15:3615:36, 4 May 2023 diff hist +39,041‎ N GW on h-BN (standalone) ‎ Created page with "This is a modified version of the tutorial on GW computations you can find on the Yambo wiki, the extended version of the tutorial is here: How to obtain the quasi-particle band structure of a bulk material: h-BN In this tutorial you will learn how to: * Calculate quasi-particle corrections in the Hartree-Fock approximation * Calculate quasi-particle corrections in the GW approximation * Choose the input parameters for a meaningful converged calculation * Plot a b..."