Three finalists, one winner
Innovation Award Laser Technology 2026 awarded
The Innovation Award Laser Technology 2026, which comes with a price of 10.000 Euro, has been awarded to Dr. Tobias Dyck, Head of the LEAF Business Unit at 4JET microtech GmbH in Alsdorf, Germany.
The award recognizes Dr. Dyck and his team for their groundbreaking project: “LEAF Laser Riblets – Shark Skin for Greener Aviation.” Chosen by a ten-member international jury from a highly competitive pool, their work stood out among three distinguished finalists.
The 2026 Prize winners and their projects are summarized as follows:
1st place:
„LEAF Laser Riblets – Shark Skin for Greener Aviation“, 4JET microtech GmbH
The award-winning project focuses on laser-based fabrication of riblet structures on surfaces. Inspired by shark skin, these microstructures reduce drag and improve aerodynamics. Using 4JET's Laser Enhanced Air Flow (LEAF) technology, riblets can now be incorporated directly into the paint layer of components over large areas for the first time. This process uses a high-power CO₂ laser system with interference technology that generates multiple microstructures simultaneously, making it significantly faster than previous methods. This technology has great potential in aviation.
Riblet structures on aircraft surfaces can reduce fuel consumption by up to three percent. This equates to savings of around 2.5 billion U.S. dollars per year and a reduction of almost ten million tons of CO₂ in long-haul passenger traffic.
Furthermore, LEAF technology opens up new possibilities for more efficient wind turbines, ships, and high-speed trains because improved aerodynamics and hydrodynamics contribute to higher energy efficiency and lower emissions.
2nd place:
„Beyond Free-Space Beams: Pure Stability and Robust Fiber Delivery to Open New Frontiers for Ultrafast Lasers“, Cailabs and PT Photonic Tools GmbH.
The PureBeam project addresses a key challenge in the industrial application of ultrashort-pulse lasers – beam guidance. Until now, this aspect of an ultrashort-pulse laser system has been complex and prone to failure. Although femtosecond lasers enable high-precision manufacturing processes, it is precisely because of this hurdle that their use in industrial applications has so far been limited.
CANUNDA-USP PureBeam by Cailabs offers an innovative solution by enabling stable coupling in hollow-core fibres and reliably ensuring and maintaining beam quality, even when the input beam is subject to interference. This makes manufacturing systems more robust and efficient and makes USP lasers easier to integrate. This technology unlocks new fields of application and, for the first time, enables true industrial-scale mass production in sectors such as semiconductor manufacturing, consumer electronics, medical technology, and the automotive and aerospace industries. This represents a major breakthrough on the path to scalable, cost-effective use of ultra-short-pulse laser manufacturing.
3rd place:
“Laser Mass Transfer of MicroLED’s – A breakthrough to Commercialization Using a Holistic System Approach”, Coherent LaserSystems GmbH & CO. KG, Göttingen.
The third place in 2026 goes to Coherent, a company based in Göttingen. The company is developing innovative laser mass transfer technology for manufacturing MicroLED displays. This technology addresses a key challenge facing the display industry: achieving cost-effective and scalable production. Although MicroLEDs have great potential for long-lasting, high-resolution displays, their widespread market introduction has been limited thus far due to high manufacturing costs and low yields.
Coherent’s integrated approach enables the ultra-fast, contactless transfer of Micro-LED chips as part of a holistic solution that combines fast, contactless Micro-LED laser transfer, a high-precision system architecture and a comprehensive software package – including AI functionality – to optimize transfer strategies and parameters from wafer to panel. The result is a significant increase in throughput and yield, whilst manufacturing costs are noticeably reduced. This technology will open up new applications in the display industry, as well as in microelectronics and optical communications in the future. It will also help make MicroLED displays economically viable and scalable.
