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19 October, 2021
Modern-day solid-state femtosecond lasers operating at multikilohertz repetition rates offer a unique combination of pulse energy and stability that make them the laser of choice for scientific research.
PHAROS and CARBIDE industrial-grade femtosecond lasers and FLINT oscillators.
22 June, 2019
NEW UNIVERSAL laser control platform for all LC released lasers starting from today. The platform enables better integration with industry 4.0; preventative diagnostics and easier cross-platform system integration into various industrial equipment.
Femtosecond laser CARBIDE features market-leading output parameters without compromises to beam quality and stability.
Product catalogue in Korean. 제품 카탈로그.
Product catalog.
Femtosecond laser PHAROS features a mechanical and optical design optimized for various scientific and industrial applications.
Femtosecond lasers offer exceptional presicion and minimal thermal damage; thus, they can be applied as treating and surgical tools in such medical disciplines as ophthalmology.
26 August, 2021
Femtosecond lasers are highly versatile tools that enable unique material processing capabilities. Due to the high precision offered by ultrashort pulse micromachining, femtosecond laser systems are applied in both industrial and scientific fields.
12 May, 2021
Using the industrial-grade PHAROS femtosecond laser and KMLabs’ XUUS-5 high-harmonic-generation system creates a high flux, ultrastable, coherent EUV light source with photon energies spanning the range of 18 – 62 eV.
Femtosecond lasers are the most common choice for stent manufacturers. Equipped with a harmonics module one can be used for processing both metallic and plastic stents.
Optical parametric chirped-pulse amplification (OPCPA) is the only currently available technology simultaneously providing high peak and average power and a few-cycle pulse duration.
Several laser-based techniques, such as LIPSS, LIL, and DLIP, enable rigid micro and nanostructuring of metal, semiconductor, glass, and other material surfaces.
X-ray generation using ultrashort high energy laser pulses is an attractive technique to obtain X-rays further used in spectroscopy and diffraction measurements.
Milling complex 3D structures into various metals with high accuracy and efficiency is no longer a challenge by equipping our femtosecond lasers.
03 November, 2021
Karolis Jurkus and Rimantas Budriūnas, R&D engineers and winners of the Laser Focus World Gold-level Innovators Award, admit that news of the accolade came as a surprise, but a pleasant one. R&D engineers have designed an ORPHEUS-MIR optical parametric amplifier, the intricacy of its name only excelled by that of its application.
Femtosecond laser writing enables vacancy-related color centers writing in silicon carbide and gallium nitride, relevant for applications in quantum technologies.
The main focus of nonlinear optics research is the development of new coherent broadband light sources, as well as novel techniques for pulse compression, and more.
Femtosecond lasers enable moth-eye AR structures on silicon capable of suppressing reflection losses in the range of 0.3 to 2.5 THz, resulting in a maximum transmission of 91%.
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