logo Litilit

The unique Litilit developed ultrafast laser technology is based on a patented laser pulse generator, which enables telecom-standard reliability, manufacturing scalability, and a competitive price. Furthermore, the lasers require no maintenance, and are robust to external disturbances.

The newly-developed femtosecond fiber laser and self-starting laser technologies have repeatedly proven themselves to be extremely flexible and reliable in a wide variety of industries. The lasers have also received acclaim for the clean pulses they emit. This allows us to adapt to the ever-shifting parameters into what is already a rapidly changing market.

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Biolit 2}

Biolit 2 is a compact, air-cooled femtosecond laser designed with multiphoton microscopy and other nonlinear optics applications in mind.

The industrial-grade device is exceptionally robust, affordable and maintenance-free.

A combination of ultra-short (typ. 60 fs) and clean pulses, superior beam quality and lower repetition rate – compared to solid-state siblings – enables unparalleled multiphoton imaging while preserving the object.

Download: Biolit 2 Datasheet

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Indylit 10}

Indylit 10 is a high energy air-cooled industrial class femtosecond laser suitable for a variety of ultrafast applications.

The laser head features an entirely passively-cooled design (patent pending), ensuring high stability of the optical parameters such as pulse duration, beam pointing and power.

Its mechanical construction can withstand almost everything you can throw at it, making Indylit a new kind of industrial femtosecond technology.

Build-in second harmonics (SH) module provides wavelength extension enabling even more different material processing applications.

Download: Indylit 10 Datasheet

{tab Indylit 20
Indylit 20}

Indylit 20 is a high energy air-cooled industrial class femtosecond laser suitable for a variety of ultrafast applications.

The laser head features an entirely passively-cooled design (patent pending), ensuring high stability of the optical parameters such as pulse duration, beam pointing and power.

Its mechanical construction can withstand almost everything you can throw at it, making Indylit a new kind of industrial femtosecond technology.

Build-in second harmonics (SH) module provides wavelength extension enabling even more different material processing applications.

Download: Indylit 20 Datasheet

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Contact

DmitryBadyukov

Dmitry Badyukov
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Tel: +49 1515 112 11 14