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The latest version of femtosecond laser systems

Modern fiber laser technology allows for detecting a chemical transformation inside a cell live. Additionally, it promotes the production of microchips by printing paths in a thin layer. The latest femtosecond laser system makes all these developments real to achieve.
It should be noted that nowadays numerous laser beam sources are distinguished. Different laser systems have their own characteristics and fields of application. The novel fiber laser system emits ultrashort laser beam pulses, femtosecond ones. To be more precise, “this is the scale on which, for example, intracellular chemical reactions take place.”
It is possible to detect these reactions by taking a photo thanks to the new laser system. Moreover, the femtosecond laser beam source enables very accurate removal of materials from different surfaces without damaging them. The scientists claim that this fiber laser is even too accurate.
The thing is that some applications require nanosecond laser beam pulses (they last much more longer). Nevertheless,  conventional fiber lasers can not draw paths of accurately planned depths in ultra-thin materials, compared to novel laser systems. Strong laser beam energy located in a small area leads to melting the materials.
The novel fiber laser system operates firmly but gently. It is susceptible to mechanical disturbance, herewith, the laser system has a compact size and it is mobile. Fiber lasers have significantly helped the team to develop the system. The operating principle of fiber laser systems is based on an optical fiber enclosed in a ring.
The laser beam pulse passes inside the fiber without any mechanical disturbances. Herewith, it is possible to touch, move, shake the optical fiber not influencing the stability of the fiber laser. Also, this laser system offers a particular frequency at the output that makes the laser unique.
Standard laser systems use laser beam frequencies that are dependent on the length of the fiber optic loop in which the pulse passes. The solution is to reduce the circumference of the ring. Thus, scientists can control, change, and even duplicate the basic laser beam frequency.
Optromix is a manufacturer of laser systems, optical fiber sensors, and optical monitoring systems. We develop and manufacture a broad variety of fiber lasers, high-powered fiber lasers, and other types. We offer simple laser products, as well as sophisticated fiber laser systems with unique characteristics, based on the client’s inquiry. 
We manufacture laser modules using our technologies based on the advanced research work and patents of the international R&D team. Laser processes are of high quality, high precision, easily-automated manufacturing solutions that provide repeatability and flexibility. If you have any questions or would like to buy a fiber laser system, please contact us at info@optromix.com