Main Areas of Application
- Conversion, Storage and Distribution of Energy
- Analysis, modeling, and simulation of different aspects of research on renewable energies as well as for the effective use of conventional energy resources.
- Flow and Transport
- Flow and transport of species are important in many processes in nature and industry. In general, they are modeled by systems consisting of partial differential equations. Active fields of research are questions concerning the analysis, the numerical analysis, and the numerical simulation of partial differential equations from computational fluid dynamics (CFD).
- Materials Modeling
- Many important processes of industrial production and use of modern and functional materials are accompanied by phase transitions and hysteresis. In tight collaboration with users from industry, physics and chemistry existing as well as newly developed models are studied at WIAS regarding their practical relevance.
- Nano- and Optoelectronics
- Analysis, modeling, and simulation of semiconductor lasers, semiconductor nanostructures, and other optoelectronic components as well as of semiconductor manufacturing technologies.
- Optimization and Control in Technology and Economy
- Methods of PDE-constrained optimal control and control of differential algebraic equations are employed in a variety of applications.
- Quantitative Biomedicine
- Modeling, analysis, simulation, or optimization of various highly relevant processes in clinical practice (modeling of cellular, biochemical, and biomolecular processes; applications in medical engineering, such as the modeling, simulation, and optimization of prostheses or contributions to the area of imaging diagnostics)
