FVIV-878.6-80W-FC400-VBG
Manufacturer/Distributor: FLC Laser Type: VBG

Description:

Manufacturer/Distributor: FLC

Frankfurt Laser Company (FLC) is known for its innovation and its ability to provide customized solutions to meet specific customer requirements, including hard-to-source and specialized laser diodes. In 2024, the company celebrated its 30th anniversary, reflecting on a successful history of technological advancements that have significantly contributed to the development of the laser industry.

Laser Type: Fiber-Coupled-Laser-Diodes

Fiber coupled lasers combine the benefits of high-intensity laser sources with the practical advantages of optical fiber technology, resulting in a powerful and adaptable tool for a wide range of industries and applications.

Laser Type: Wavelength-Stabilized-Laser-Diodes

The primary advantages of wavelength-stabilized laser diodes include high stability with minimal wavelength drift over time and under different operating conditions. They also produce light with a very narrow spectral width, which is essential for many precision applications, and the stable wavelength reduces phase noise, improving signal quality in communication systems.

Laser Type: VBG

Volume Bragg Grating (VBG) stabilized laser diodes use a volume Bragg grating to provide wavelength stabilization and spectral narrowing, ensuring the laser emits light at a precise and stable wavelength. This technology enhances spectral purity and temperature stability, making it ideal for applications requiring highly monochromatic light, such as spectroscopy, telecommunications, and lidar. The VBG reflects specific wavelengths back into the laser diode, forcing it to emit light with a very narrow linewidth and increased coherence length.

Wavelength Range: IR

Wavelength Range: Infrared radiation typically spans wavelengths from about 700 nanometers (nm) to 1 millimeter (mm). This range can be further subdivided into near-infrared (NIR), mid-infrared (MIR), and far-infrared (FIR). Near-Infrared (NIR): 700 nm to 1.4 micrometers (µm) Mid-Infrared (MIR): 1.4 µm to 3 µm Far-Infrared (FIR): 3 µm to 1 mm

Mode: multimode

Multimode lasers excel in applications where high power and a broad beam are advantageous. They are particularly effective in: Material Processing: The high power and broad beam of multimode lasers make them ideal for cutting, welding, and engraving materials like metals, plastics, and ceramics. Medical Treatments: They are used in procedures such as laser surgery, skin treatments, and phototherapy, where a larger treatment area and higher energy are beneficial. Optical Sensors: Multimode lasers are employed in sensors that require a more diffuse light source, which can be useful in detecting variations over a larger area. Illumination and Display Technologies: The broad beam and higher power are useful in lighting applications and projection systems where wide and uniform illumination is needed. Overall, multimode lasers are preferred in scenarios where the primary requirements are high power output and wide beam coverage rather than precision and narrow beam focus.

This article refers to: FVIV-878.6-80W-FC400-VBG (Manufacturer/Distributor: FLC Laser Type: VBG Wavelength Range: IR Mode: multimode ) - FVIV-878.6-80W-FC400-VBG - multimode VBG Wavelength 879nm (Nanometer) Power 80W (Watt)