The BESCLING project explored a recently discovered optical effect called beam self‑cleaning, which allows light travelling in multimode optical fibres to become more stable and easier to control. Multimode fibres are widely used in modern technologies such as medical imaging, industrial laser processing, and sensing. However, their performance is often limited by unstable light patterns caused by temperature changes or mechanical vibrations. Beam self‑cleaning offers a promising solution by naturally reshaping the light into a cleaner and more stable form when the power exceeds a certain level.
The goal of BESCLING was to better understand the physical mechanisms behind this effect. While earlier studies focused only on the spatial behaviour of light, this project investigated how space and time interact during beam self‑cleaning. Understanding these mechanisms can contribute to the development of more robust fibre‑based technologies, with potential benefits in healthcare, manufacturing, and environmental monitoring.
The project was carried out over a limited duration and focused on establishing new knowledge that can support future research in nonlinear and multimode fibre optics.