My research focuses on the development and application of advanced laser-based diagnostic techniques to investigate plasma-related phenomena with strong connections to industrial chemical processes. By leveraging state-of-the-art laser systems, such as short-pulse lasers and spectroscopic methods, I aim to achieve a deeper understanding of the underlying physics governing non-thermal and thermal plasmas. This work addresses critical challenges in plasma diagnostics, including precise measurements of temperature, species concentrations, and reaction kinetics in highly dynamic and reactive environments.

The insights gained from my research contribute to optimizing plasma-based technologies, which are integral to modern industrial processes such as material synthesis, chemical reforming, and energy production. In particular, I explore how tailored plasma conditions can enhance efficiency, reduce environmental impact, and enable novel chemical pathways for sustainable applications. My work combines fundamental plasma physics with applied photonics, bridging the gap between laboratory-scale research and real-world industrial advancements.