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Aiming Laser produces customized single mode and multimode low power coaxial fiber coupled laser diode modules and pigtailed laser diodes with low cheap price for sale.
Wavelengths is available at 405nm, 450n, 520n, 635nm, 650nm, 780nm, 850nm, 905nm, 1064nm with output power 1mW to 50mW.
The single mode pigtailed laser diode's fiber core can be 3.5um, 4um, 6.5um, 9um. The multimode fiber coupled laser diode's fiber core can be 50um, 62.5um, 105um, 125um, 170um and 200um. Connectors can be FC/PC, FC/APC, SMA or ST with different fiber length.
The coaxial fiber coupled laser diode modules is mainly used for medical laser instrument, biomedical instrument, laser illuminations, scientific research and other industrial applications etc.
Laser Source: Fiber coupled laser modules begin with a laser diode or solid-state laser that generates the initial laser beam. This source is chosen based on the desired wavelength and power output for the specific application.
Beam Shaping and Focusing: The laser beam is then shaped and focused using optical components such as lenses and mirrors. This step ensures that the beam has the correct size and shape to efficiently enter the optical fiber.
Fiber Coupling: The shaped and focused laser beam is directed into the core of an optical fiber. Precision alignment is crucial at this stage to maximize coupling efficiency and minimize losses.
Transmission and Delivery: Once coupled into the fiber, the laser beam can be transmitted over long distances with minimal loss. The fiber delivers the laser light to the desired location, providing flexibility and precision for applications in medical, industrial, and communication fields.
High Efficiency and Precision: Fiber coupled lasers offer excellent beam quality and precise control, making them ideal for applications requiring high accuracy, such as medical procedures, precision cutting, and scientific research.
Flexibility and Versatility: The use of optical fibers allows for flexible routing of the laser beam, enabling easy integration into complex systems and hard-to-reach areas. This versatility is beneficial in industrial automation, telecommunications, and remote sensing.
Reduced Maintenance and Downtime: Fiber coupled lasers are typically more robust and require less maintenance compared to free-space laser systems. The enclosed fiber protects the beam from environmental factors, reducing the risk of contamination and misalignment.
Enhanced Safety: The fiber delivery system confines the laser beam within the fiber, minimizing the risk of accidental exposure and enhancing safety for operators and surrounding equipment. This is particularly important in medical and high-power industrial applications.
