-
chemistry. The project aims to understand the active state of a surface live during plasma exposure using a unique methodology developed by our research group. It is part of a fully funded Starting Grant from
-
landscape, there is an unprecedented need for much higher resolution and high-speed imaging systems. At ARCNL, we are committed to developing innovative technologies to address these challenges. You will
-
media. The new approach will enable imaging and accurate characterization of nanostructures for the semiconductor industry. Optical metrology is a key ingredient of nanolithography, as it enables
-
resolution and high-speed imaging systems. At ARCNL, we are committed to developing innovative technologies to address these challenges. You will collaborate closely with experts in machine learning (UvA
-
This theory-oriented postdoctoral position lies at the interface between fundamental physics and industrial application. It is part of a fully funded Consolidator Grant from the European Research
-
efficiency in converting electrical power to useful EUV light. Replacing gas lasers with much more efficient solid-state lasers may significantly improve efficiency, as well as output power. It is currently
-
methodology developed by our research group. It is part of a fully funded Starting Grant from the European Research Council entitled “Resolving surface reactions in plasma catalysis: Towards rational catalyst