635nm 100mW PM Fiber Laser: Stable Light Source, The First Choice For Efficient Processing

The working principle of polarization-maintaining fiber laser is based on the optical waveguide effect and laser generation mechanism in the optical fiber. In polarization-maintaining fiber, the specially designed fiber structure and high refractive index materials enable the fiber to maintain the stability of linear polarized light during transmission. When the pump light passes through the fiber, it excites the doped substances in the fiber, generates photon amplification and multiplication, and finally forms laser output. By controlling the intensity and modulation frequency of the pump light, stable output and precise control of the laser can be achieved.

The 635nm wavelength is stable and the laser output power fluctuates little, making it suitable for a variety of applications that require a stable light source. The 100mW output power gives the laser enough energy density for a variety of applications, improving processing efficiency and quality. With the power tunable feature, the output power can be adjusted according to actual needs. Polarization-maintaining fiber lasers can maintain the stability of linearly polarized light, which is essential for applications that require high polarization retention.

The 635nm 100mW polarization-maintaining fiber laser plays an important role in scientific research, medical treatment, industry and other fields with its unique performance and wide application fields. With the continuous advancement of technology and the continuous expansion of application fields, it is believed that it will show its unique charm and value in more fields.

The test report of this 630nm 100mW PM fiber laser.