Fiber Optic / Laser

CoreWave's Laser Engines are built and designed based on our long-time technical expertise in Large Mode Area fiber handling and key component manufacturing. They feature exceptional optical efficiency and preserve a superior beam quality. By employing proper pumping configuration, precise mode filtering and optimizing splice points, CoreWave's Laser Engines deliver great optical efficiencies together with superior beam qualities which make them an ideal choice for a wide range of applications. These Laser Engines allow our customers to enjoy an advantage of optimum performance while concentrating their efforts to build a laser system based on their own integration expertise. They are then able to optimize their design to best answer their own requirements.

TAS OPTICS's Laser Engines are built and designed based on our long-time technical expertise in Large Mode Area fiber handling and key component manufacturing. They feature exceptional optical efficiency and preserve a superior beam quality. By employing proper pumping configuration, precise mode filtering and optimizing splice points, CoreWave's Laser Engines deliver great optical efficiencies together with superior beam qualities which make them an ideal choice for a wide range of applications. These Laser Engines allow our customers to enjoy an advantage of optimum performance while concentrating their efforts to build a laser system based on their own integration expertise. They are then able to optimize their design to best answer their own requirements.

TAS OPTICS's YDF500 is designed to deliver exceptional reliability and ensure long-term stability. This competing product addresses a wide range of demand and well suits multi-shift industrial environments. Its compact footprint is virtually predestined for integration into existing machining workstations. To meet rigorous international standards, all manufacturing processes are done and monitored under the strict supervision of our world-class experts which leads to superior quality over others. The unique combination of high average power and outstanding beam quality makes the YDF500 an ideal laser source for cutting, drilling, engraving, soldering, ablation, surface cleaning, and precision material and coating removal.

TAS OPTICS's YDF1000 is designed to deliver exceptional reliability and ensure long-term stability. This competing product addresses a wide range of demand and well suits multi-shift industrial environments. Its compact footprint is virtually predestined for integration into existing machining workstations. To meet rigorous international standards, all manufacturing processes are done and monitored under the strict supervision of our world-class experts which leads to superior quality over others. The unique combination of high average power and outstanding beam quality makes the YDF1000 an ideal laser source for cutting, drilling, engraving, soldering, ablation, surface cleaning, and precision material and coating removal.

TAS OPTICS produces all fiber combiners using both side pumping and end pumping techniques. Our combiners handle a few tens of watts up to 1 KW optical power. Low signal insertion loss and high coupling efficiency combiners ensures reliable and stable- operation at high powers applications. Different port configurations and various fiber types are available to match the requirements of your application.

TAS OPTICS produces all fiber combiners using both side pumping and end pumping techniques. Our combiners handle a few tens of watts up to 1 KW optical power. Low signal insertion loss and high coupling efficiency combiners ensures reliable and stable- operation at high powers applications. Different port configurations and various fiber types are available to match the requirements of your application.

TAS OPTICS produces all fiber combiners using both side pumping and end pumping techniques. Our combiners handle a few tens of watts up to 1 KW optical power. Low signal insertion loss and high coupling efficiency combiners ensures reliable and stable- operation at high powers applications. Different port configurations and various fiber types are available to match the requirements of your application.

For multi-kW power levels, beam combining typically use to reach high power Laser. This modular approach offers many benefits in terms of building, spare provisioning, and future upgrades. Corewave Photonics Fiber Laser Beam Combiners provide a practical means of scaling with only a few simple splices. FLBC offer two ways to reach multi-kW power levels: You can build with matching Fiber Laser Cavities from Corewave Photonics, or combine your existing fiber lasers with matching output.

TAS OPTICS QBH Connectors are designed for high power fiber laser and amplifier termination. They feature beam expansion to reduce output power density and an optically flat termination angle, which reduces the back reflection to better than -15dB. They are designed for operation at high peak or average power, with minimal beam distortion. Versions are available with a variety of fibers, including PM designs.

TAS OPTICS's EDFL1600 is an innovative and competing product which provides the customer with ultra-short output pulses as short as 90 fs and output average powers up to 2 W at the central wavelength of 1600 nm. This robust and compact femtosecond fiber laser system is a powerful laser machine which integrates the latest achievements in femtosecond technology into a commercial product. From material processing to spectroscopy and THz physics, this effective solution addresses a wide range of demand. The laser is maintenance-free and ready to use at the press of a single button.

Pulsed Fiber lasers deliver light centered at 1550nm and guided to the work piece via a flexible metal-sheathed fiber cable. It provides a set of pulse durations, repetition rates and peak powers. The optical head may be equipped with an opto-isolato, that makes it possible to mark directly on non-metallic materials (plastic, wood, paper, etc.) and some metal with low reflectivity.

The introduced system is able to capture two-dimensional spectra (in emission, transmission and reflection modes) directly from the scene in the desired wavelengths. Imaging of the object is done directly by linear sweep (push broom method). Detector used in this hyper spectral camera is A 1280 x 720 pixel CCD. The spectral resolution of this system is about 2.5nm and its spatial resolution was about 200 micrometer for a 10 cm long object. The hardware solution is based on data acquisition working on the USB platform and controlled by a LabVIEW program. The free spectral range (FSR) of the system was 400 to 1000 nm. The output data is a 3D matrix that is processed. All of spectral image is in 3D matrix that interest image can be seen by entering the interest landa in hyper spectral camera software. Three spectral image of apple has been shown in bellow frame.