Process control for the femtosecond laser surface modification by high resolution imaging spectroscopy
Ultrashort Pulse Lasers for Innovative Technology
Chirped-pulse High-Energy Optical Parametric System (CHEOPS)
Burst-driven Longwave Amplification Scaled by Temporal Energy Refocusing
The aim is to mathematically model technological processes in order to promote reconstruction of heating equipment in papermills and thus increase waste paper remaking capacity.
Design of a small-sized mobile satellite laser ranging system (slr) with a high capability to track fast-moving low earth orbiting satellites including the zenith zone. The main innovation is the pilot project of the semi-automated slr.
The project objective is the development, construction and optimisation of advanced laser renovation systems with automatic control of level cleaning and laser beam scanning.
The proposed project is devoted to the development of a complex yet easy-to-use parametrised data (mathematical) model with optimal user interface which will allow for effective cost management and be uniformly applicable.
A principal goal of the project is to develop novel measurement technologies and tools for characterisation of advanced semiconductor materials and for ex-situ evaluation of their fabrication technologies.