Post-Doctoral M/F/X Spectrally resolved ray tracing and electrical modeling of tandem solar modules
- France
- Contrat
- Temps-plein
The output of photovoltaic modules is strongly influenced by the spectral composition of sunlight.
Each (sub-)cell technology (e.g., Si, CdTe, Perovskite) responds differently to various wavelengths due to its unique quantum efficiency.
Atmospheric factors-such as aerosols, humidity, and solar angle-alter the spectrum, thereby affecting energy yield.
Spectral modeling enables:
- Optimization of optical designs (e.g., anti-reflective coatings, textured surfaces) ;
- Quantification of losses due to spectral shifts in tandem and bifacial modules ;
- More accurate prediction of energy production under real-world conditions.
At the heart of the R&D teams working on the SolarOPS project, your responsibilities for this Spectralfinal Postdoctoral position (M/F/X) will include the following:
- Enhancing the irradiance engine developed in a previous PhD project-already superior in accuracy and computational efficiency-by integrating spectrally resolved radiance data. The improved engine must remain scalable, efficient, and adaptable to the evolving requirements of the solar energy industry ;
- Developing physics-based models (beyond heuristic or purely data-driven approaches) to simulate a wide range of module configurations, from conventional to next-generation technologies (e.g., glass layers, encapsulants, textured interfaces) ;
- Simulating the electrical behavior of tandem solar cells, including spectral splitting and current matching mechanisms ;
- Implementing flexible circuit simulation capabilities to capture layout-specific electrical effects ;
- Ensuring compatibility with a physics-based thermal model for solar cells, currently under development in a parallel PhD project (expected completion: April 2026).