Applications

Rapid drilling of conical holes is possible in various materials using the BiBurst feature of the PHAROS and CARBIDE lasers.

A femtosecond laser-based scribing procedure has been demonstrated for cleaving silica optical fiber.

A femtosecond laser is a powerful tool for localized material ablation with high processing accuracy and cleanliness.

Laser-drilled glass biopsy probes diameter can vary from 12 µm to more than 20 µm, and the biopsy ports vary in diameter from 5 µm to more than 10 µm.

Bursts of femtosecond laser pulses enable polishing of bio-compatible hydrophilic acrylic polymer surfaces to roughness value of less than 50 nm.

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%.

Femtosecond laser writing enables vacancy-related color centers writing in silicon carbide and gallium nitride, relevant for applications in quantum technologies.

Various applications, from consumer electronics to medical tools manufacturing, use stainless steel. Femtosecond lasers can polish numerous types of stainless steel.

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.

High precision laser cutting involves the development and production of parts for multiple industries such as: watches, jewelry, consumer electronics, and more.