FF-1420-1465-250-380S-BTF-FBG (FF-14YY-XXXS-BTF-FBG )
Manufacturer: FLC
Laser Type: FBG
Fiber-coupled FBG Laser Diode
Description:
Manufacturer: FLC
Frankfurt Laser Company (FLC), established in 1994, has a rich history of success and innovation in the field of laser technology. FLC's success is driven by its commitment to innovation and its ability to deliver customized solutions tailored to specific customer needs, including hard-to-source and specialized laser diodes. Celebrating its 30th anniversary in 2024, the company reflects on a legacy of technological advancements that have significantly impacted the laser industry. Through consistent innovation and dedication to excellence, FLC has maintained its position at the forefront of laser technology, continually pushing the boundaries of what is possible in the field.
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: FBG
Choosing a Fiber Bragg Grating (FBG) Stabilized Laser Diode is advantageous due to its exceptional wavelength stability, narrow linewidth, low noise, temperature compensation, and versatility across various applications. These laser diodes provide enhanced performance and reliability, making them the preferred choice for applications demanding high precision and stability.
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 lasers are particularly useful in applications requiring precise control of the light beam. In optical communication, their high coherence and narrow beam allow for efficient coupling into optical fibers, which reduces signal loss and enables long-distance communication. In high-precision measurement systems, singlemode lasers provide the accuracy needed for applications such as interferometry, spectroscopy, and metrology. They are also ideal for sensing and imaging applications due to their focused and coherent beam, making them suitable for high-resolution imaging and precise sensing applications, including LIDAR and biomedical imaging. Furthermore, singlemode lasers are frequently used in scientific research, particularly in laboratories for experiments requiring precise and stable light sources, such as atomic and molecular spectroscopy. The design of singlemode lasers typically involves specific structural considerations, such as a small core size or a precise refractive index profile, to support only the fundamental transverse mode and ensure high beam quality and coherence.
This article refers to: FF-1420-1465-250-380S-BTF-FBG (FF-14YY-XXXS-BTF-FBG ) (Manufacturer: FLC Laser Type: FBG Wavelength Range: IR Mode: singlemode ) - FF-14YY-XXXS-BTF-FBG - singlemode FBG
- FLC
- FBG
- IR
- singlemode