Munich, Germany, June 24-27, 2019 --- Laser World of Photonics 2019, the world's leading photonics trade fair opened and attracted 34,000+ attendees. Over 1,300 exhibitors showcased the latest components, systems, and applications for the photonics industry. AFR has demonstrated its latest and featured fiber laser components during the show.
ClearCut Package-Free High Power Fiber Bragg Grating
For high power fiber bragg grating (FBG), when it comes to the "Controlling Temperature" problem, the common solution needs a metal package to dissipate excess heat. However, which creates difficulties with installation. AFR’s package-free solution, through the unique ClearCut design, eliminates the need for package, and can maintain an ultra-low temperature slope. Additionally, this product may add an FBG area temperature monitor to help users improve real-time data analysis.
Features:
1. Ultra Low Temperature Slope
2. High Power Handling up to 2 kW
3. Center Wavelength Options: 1030 nm, 1064 nm, 1070 nm, 1080 nm
Dragon High Power Laser Cable
AFR’s high power laser cable can handle up to 10 kW output power, 500 W stripping cladding power and backward power. With indirect water cooling technology, it is more stable and reliable than the common solution.
Features:
1. Low Transmission Loss
2. High Reflection Power Endurance
3. Indirect Water Cooling
4. Safety Interlock
2.5 kW (6+1)x1 Backward Pump Combiner
Specifically designed for high power fiber lasers, these optical combiners are usually mated with the forward optical path to form a bi-directional pump structure to obtain higher amplification efficiency and higher output power.
Features:
1. High Coupling Efficiency ≥ 97%
2. Low Signal Insertion Loss ≤ 0.3 dB
3. Proprietary Fiber Tapering Technique
200 W In-Line Optical Isolator
With the solid reputation of its high power optical isolator, AFR has released its 200 W version this year. This exciting product also offers guaranteed high reliability and stability.
Features:
1. High Isolation > 28 dB
2. Low Signal Insertion Loss < 0.4 dB
3. Proprietary Fiber Tapering Technique