FPD-XXXS-1083-YY-DBR ()
Manufacturer/Distributor: FLC
Laser Type: DBR
Description:
Manufacturer/Distributor: FLC
The Frankfurt Laser Company (FLC) is a global supplier of laser technologies, offering a range of products including laser diodes and laser modules for various industrial and scientific applications. Founded in 1994, FLC serves industries such as machine vision, manufacturing, medicine, and aerospace.
Laser Type: CW-Laser-Diodes
Continuous-wave (CW) laser diodes are highly efficient and can be manufactured to emit light at various wavelengths, making them versatile for different applications.
Laser Type: Fiber-Coupled-Laser-Diodes
Fiber coupled lasers ensure efficient and precise light delivery by integrating the laser source with an optical fiber, minimizing losses and maintaining beam quality over long distances. Their compact, robust design allows for flexible routing and easy integration into various systems, making them ideal for applications in medical procedures, industrial manufacturing, and scientific research. Additionally, they offer superior beam quality, enhanced safety, and effective thermal management, making them a reliable and versatile choice for a wide range of applications.
Laser Type: Laser-Diode
A laser diode is a sophisticated semiconductor device that leverages the properties of the p-n junction and optical cavities to produce coherent, monochromatic, and directional light. Its unique characteristics make it invaluable in various technological 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: DBR
A Distributed Bragg Reflector (DBR) laser diode is a type of semiconductor laser that utilizes a periodic structure, known as a Bragg reflector, to create a highly reflective feedback mechanism within the laser cavity. This periodic structure consists of alternating layers of materials with different refractive indices, which are designed to reflect specific wavelengths of light. The primary purpose of these reflectors is to enhance the laser's efficiency and performance by providing a narrow linewidth and a stable single-mode output.
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: singlemode
Singlemode in lasers refers to the operation of a laser that supports only the fundamental transverse mode, resulting in a highly coherent and focused light beam with a narrow spectral linewidth. This means the laser emits light at a single spatial pattern and usually at a single frequency, producing a beam with very low divergence and high spatial coherence.
This article refers to: FPD-XXXS-1083-YY-DBR () (Manufacturer/Distributor: FLC Laser Type: DBR Wavelength Range: IR Mode: singlemode ) - - singlemode DBR Wavelength 1083nm (Nanometer) Power 0.12W (Watt)
- FLC
- DBR
- IR
- singlemode