A Lot Of Power Through The Laser Pointer Fiber
Although the internal structure of PCF is different from hollow fiber laser pointer. But the basic challenges remain the same. Controlled laser heating is used to ensure that the collapse of the fiber structure can be controlled. During the splicing process, most of the fiber collapses near the splicing point. As the splicing process proceeds, the edges of the fiber are fused to the end cap, and the internal structure of the fiber is complete, even with the splicing interface. Because a fuse can be formed around the fiber, the mechanical stability of the connector is still high. These experiments show. The ring laser pointers laser beam provides optimal control over all the processes required to make this precision part.
If a lot of power goes through the laser pointer fiber. Then the capping process becomes very important. When light hits the air from the fiber. Air-fiber interfaces scatter light. If this scattering is concentrated on a small-sized fiber, the concentration of power can easily damage the fiber. Therefore, by adding an end cap, light can be spread over a larger area before entering the air. Of course, it only works if the fiber is spliced to the end cap. Thereby no laser pointer is scattered at this interface. Therefore, it is important that the connector is completely free of contamination and that the fiber is evenly attached.