Overview
The ARISE project (Analysis of Robust Numerical Solvers for Innovative Semiconductors in View of Energy Transition) focuses on the development of advanced mathematical and numerical models for innovative semiconductor devices, such as perovskite solar cells and memristors, to support the global energy transition. This collaboration between the RAPSODI team at the Inria Centre at the University of Lille and the NUMSEMIC team at WIAS Berlin builds upon several years of joint research on drift-diffusion systems for charge transport. The project aims to address key challenges in modeling these devices, particularly involving nonlinear diffusion, boundary conditions, and multi-scale phenomena. By combining rigorous mathematical analysis, robust numerical methods, and practical applications, ARISE aims at enhancing the understanding and simulation of cutting-edge semiconductor technologies.
Team members
- Dilara Abdel, postdoc researcher, WIAS Berlin
- Alain Blaustein, research scientist, Inria RAPSODI, University of Lille
- Clément Cancès, senior researcher, head of the Inria RAPSODI project-team, University of Lille
- Claire Chainais-Hillairet, full professor, University of Lille, Inria RAPSODI
- Thomas Crozon, postdoc researcher, University of Lille, Inria RAPSODI
- Amélie Dupouy, PhD student, Inria RAPSODI, University of Lille
- Patricio Farrell, head of the NUMSEMIC research group, WIAS Berlin
- Jürgen Fuhrmann, deputy head of the research group Numerical Analysis and Scientifc Computing, WIAS Berlin
- Maxime Herda, coordinator, research scientist, Inria RAPSODI, University of Lille
- Christine Keller, PhD student, WIAS Berlin
- Julien Moatti, assistant professor, Bordeaux INP
- Daniel Runge, PhD student, WIAS Berlin
Contact
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