Organic materials are typically very sensitive to induced heat, which can cause warping and burnt edges during processing. Femtosecond lasers are an excellent solution for these materials because their ultra-short pulse duration prevents significant heat transfer to the material’s lattice, ensuring high accuracy and quality processing. FemtoLux 30 laser was...

...products FemtoLux Industrial Femtosecond Lasers 50 W / >300 µJ at 1030 nm 20 W / >50 µJ at 515 nm 10 W / >25 µJ at 343 nm < 400 fs – 1 ps Single shot to 4 MHz (AOM controlled) MHz, GHz, MHz+GHz burst modes Femtosecond processing of GaAs in ambient air and water environment Processing semiconductor materials such...

...Explore products Industrial Femtosecond Lasers Tunable Wavelength Lasers Fixed Wavelength Lasers High Intensity Systems Laser Spectroscopy & Imaging Laser Electronics Explore products Tailored for your needs Applications Explore applications Material processing Ultrafast solutions for industries applications. Glass processing Metal processing Polymer processing Other materials Biomedical & scientific Cutting-edge tools for...

...these materials. The FemtoLux 30 has been evaluated for cutting various metals, including stainless steel, copper, and kovar. By carefully optimizing the processing parameters, high-quality results have been achieved across different metal types. Stainless steel cutting. Courtesy of FTMC. Manufacturing examples Stainless steel cutting. Courtesy of FTMC. Scanning electron microscope...

Femtosecond processing of materials faces a significant challenge in terms of process throughput. There exists an optimal fluence value at which the most efficient material removal occurs. However, with high average power lasers, achieving this optimal fluence is difficult. In order to achieve the optimal fluence at higher powers, one...

Other materials Compared to traditional methods, femtosecond lasers with their very short pulse durations offer superior precision. Complex 3D structures as well as non-conventional shapes can be obtained. Femtosecond lasers ensure the highest quality and accuracy for processing of different kind of materials. white blur Other materials Compared to traditional...

Ceramics are popular dielectric materials known for their exceptional properties, including thermal conductivity, electrical insulation, mechanical strength, and resistance to corrosion and wear. However, conventional mechanical processing methods often require large forces, leading to crack formation and potential breakage of the substrate. Femtosecond lasers offer a solution for processing hard...

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Glass The femtosecond laser micromachining technique has brought transparent materials processing to the next level. Complex structures can now be precisely fabricated by selectively removing material through drilling, cutting, and milling. The femtosecond laser micromachining technique has brought glass processing to the next level white blur Processing of glass The...

...process. Femtosecond lasers have pushed the boundaries in terms of smaller features, higher processing efficiency, and enhanced processing resolution compared to laser sources with longer pulse durations. Float zone silicon wafer (FZ-Si (100), 0.4 mm thickness) was processed with FemtoLux 30 resulting in high processing quality – low heat affected...