Short Course Speakers (June 3rd)
- Eric Polizzi, University of Massachusetts Amherst, USA
First-principle DFT ground-state and TDDFT excited-states calculations: Theory and Computation
- Xavier Waintal, CEA Grenoble, France
Recent progresses in the simulation of time-resolved quantum nanoelectronics
- Irena Knezevic, University of Wisconsin Madison, USA
Coupling Electrons, Phonons, and Photons – Challenges in Multiphysics Transport Simulation
- Yuriy Pershin, University of South Carolina, USA
Memcomputing: a Computing Paradigm to Store and Process Information on the Same Physical Platform
Invited Speakers:
- Gerald Bastard, Ecole Normale Supérieure, Paris, France
Carrier dynamics in imperfect Quantum Cascade Structures
- Christian Flindt, University of Geneva, Switzerland
Electron Waiting Times in Mesoscopic Conductors
- Irene Gamba, University of Texas at Austin, USA
Alternative computational methods for Boltzmann and Wigner models in charged transport systems
- Nicola Marzari, Ecole Polytechnique Fédérale de Lausanne, Switzerland
Electronic transport from first-principles: electrons, phonons, and Wannier functions
- Nobuya Mori, Osaka University, Japan
R-matrix theory and equivalent model for nanoscale device simulation
- François Triozon, CEA Grenoble, France
Modeling of FDSOI and Trigate devices: What can we learn from Non-Equilibrium Green’s Functions?
- Evan Reed, Stanford University, USA
Emergent electromechanical properties of monolayer and few-layer materials
- Hasan Sahin, University of Antwerp, Belgium
Engineering Silicene by Defects
- Jean-Michel Sellier, Bulgarian Academy of Sciences, Sofia, Bulgaria
The Multi-Dimensional Transient Challenge: The Wigner Particle Approach
- Andreas Wacker, Lund University, Sweden
Modelling of Quantum Cascade Lasers by nonequilibrium Green’s functions