YAMBO SCHOOL
- Owner: Roberto Bendinelli
- Created on Sep 28, 2023
The aim of this school is to equip students with the essential knowledge, practical skills and computational tools needed to tackle today’s novel and challenging problems in materials science and non-equilibrium physics. During the school the students will be introduced to many-body perturbation theory (MBPT) approaches, including advanced concepts, for modelling non-equilibrium phenomena from first principles. The main topics covered include the GW approximation for quasiparticle corrections and the Bethe-Salpeter Equation (BSE) for excitons, with a focus on recent developments in the YAMBO code. Furthermore, we will introduce the specific usage of the code in massively parallel environments equipped with modern accelerated video cards (GPUs).
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Child Collections in the Collection
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Owner: Roberto Bendinelli
Created on Sep 28, 2023
[order][{"id":"65156c4de4b0fdae771cf461","name":"Modelling excitons: from 2D materials to Pump and Probe experiments","description":"A. Molina-Sánchez, Universitat de València\nModelling excitons: from 2D materials to Pump and Probe experiments","created":"Thu Sep 28 12:06:37 UTC 2023","thumbnail":"6515734ce4b0fdae771cf5a8","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"},{"id":"65156c68e4b0fdae771cf472","name":"The Bethe-Salpeter equation: derivations and main physical concepts","description":"M. Palummo, Università di Roma Tor Vergata\nThe Bethe-Salpeter equation: derivations and main physical concepts","created":"Thu Sep 28 12:07:04 UTC 2023","thumbnail":"65157665e4b0fdae771cf66b","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"},{"id":"65156c7de4b0fdae771cf485","name":"Real time approach to the Bethe-Salpeter equation","description":"F. Paleari, CNR-NANO Modena\nReal time approach to the Bethe-Salpeter equation","created":"Thu Sep 28 12:07:25 UTC 2023","thumbnail":"65157889e4b0fdae771cf745","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"},{"id":"65156c94e4b0fdae771cf494","name":"TD-HSEX and real-time dynamics","description":"D. Sangalli, CNR-ISM Roma\nTD-HSEX and real-time dynamics","created":"Thu Sep 28 12:07:48 UTC 2023","thumbnail":"65157b02e4b0fdae771cf7b2","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"}][endorder]
Owner: Roberto Bendinelli
Created on Sep 28, 2023
[order][{"id":"65154b35e4b0fdae771ceee8","name":"An overview on non-equilibrium Green Functions","description":"E. Perfetto, Università di Roma Tor Vergata\nAn overview on non-equilibrium Green Functions","created":"Thu Sep 28 09:45:25 UTC 2023","thumbnail":"65155342e4b0fdae771cf072","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"},{"id":"65154b4be4b0fdae771ceef7","name":"ARPES spectroscopy, an experimental overview","description":"R. Frisenda, Università di Roma La Sapienza\nARPES spectroscopy, an experimental overview","created":"Thu Sep 28 09:45:47 UTC 2023","thumbnail":"6515563ae4b0fdae771cf10c","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"},{"id":"65154b66e4b0fdae771cef09","name":"The Quasi Particle concept and the GW method","description":"A. Marini, CNR-ISM Roma\nThe Quasi Particle concept and the GW method","created":"Thu Sep 28 09:46:14 UTC 2023","thumbnail":"651558e1e4b0fdae771cf1da","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"},{"id":"65154b7de4b0fdae771cef19","name":"The GW method: approximations and algorithms","description":"A. Guandalini, Università di Roma La Sapienza\nThe GW method: approximations and algorithms","created":"Thu Sep 28 09:46:37 UTC 2023","thumbnail":"65155ba6e4b0fdae771cf282","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"},{"id":"65154b94e4b0fdae771cef29","name":"Frequency dependence in GW: origin, modelling and practical implementations","description":"D.A. Leon, NMBU, As, Norway\nC. Cardoso, CNR-NANO Modena\nFrequency dependence in GW: origin, modelling and practical implementations","created":"Thu Sep 28 09:47:00 UTC 2023","thumbnail":"65155d8ce4b0fdae771cf300","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"}][endorder]
Owner: Roberto Bendinelli
Created on Sep 28, 2023
[order][{"id":"65154914e4b0fdae771cee44","name":"Description and goals of the school","description":"D. Varsano, CNR-NANO Modena\nDescription and goals of the school: From theoretical concepts to real computation of the excited states properties of complex materials by first principles","created":"Thu Sep 28 09:36:20 UTC 2023","thumbnail":"65154a00e4b0fdae771cee91","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"},{"id":"651549afe4b0fdae771cee65","name":"The Many-Body Problem: Key concepts of theMany-Body Perturbation Theory","description":"G. Stefanucci, Università di Roma Tor Vergata\nThe Many-Body Problem: Key concepts of the Many-Body Perturbation Theory\n","created":"Thu Sep 28 09:38:55 UTC 2023","thumbnail":"65154d3ae4b0fdae771cef5e","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"},{"id":"651549d7e4b0fdae771cee78","name":"Beyond the independent particle scheme: The linear response theory","description":"M. Marsili, Università di Bologna\nBeyond the independent particle scheme: The linear response theory","created":"Thu Sep 28 09:39:35 UTC 2023","thumbnail":"6515507be4b0fdae771cefef","authorId":"649ad15af7aa6e15fad92ed5","spaces":["62a88721e4b0cc21d431faaf"],"resource_type":"dataset"}][endorder]
Owner: Roberto Bendinelli
Created on Sep 28, 2023
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