FPYL-445-XXXXT-LN
Manufacturer/Distributor: FLC Laser Type: Laser-Diode-Systems

Description:

Manufacturer/Distributor: 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: Laser-Diode-Systems

A laser diode system utilizes a semiconductor laser diode to generate highly concentrated and coherent light, featuring components like power supplies, cooling systems, optical elements, and control electronics for precise and efficient operation. These systems are pivotal in various applications, including telecommunications, medical devices, consumer electronics, and industrial manufacturing, owing to their compact size, high efficiency, and precision. However, they require effective thermal management and may need additional optics to improve beam quality for specific uses.

Wavelength Range: Visible

Visible lasers have a broad array of applications. In communications, they are used in optical fiber systems for short distances. Medical applications include surgeries, eye treatments like LASIK, and various diagnostic tools. The entertainment industry employs visible lasers in light shows to create striking visual effects. In measurement and detection, laser rangefinders and LIDAR systems use visible lasers for measuring distances and mapping, while bar code scanners often use red laser diodes. Research and development fields utilize visible lasers in spectroscopy, microscopy, and other scientific investigations to study material properties.

Wavelength Range: Low-Noise

To achieve low noise in lasers, several techniques and design considerations are employed. Stabilized power supplies are essential to ensure the power supplied to the laser is stable and free from fluctuations. Consistent temperature control helps reduce noise from thermal fluctuations. High-quality laser cavities made from materials and designs that minimize losses and fluctuations within the laser cavity also play a significant role. Electronic feedback systems can be implemented to stabilize the laser output, while mechanical isolation helps reduce vibrations and external disturbances that can introduce noise. In summary, achieving low noise in lasers is crucial for applications that demand high precision, stability, and reliability in laser performance.

Mode: multimode

Multimode lasers typically exhibit lower beam quality compared to their single-mode counterparts, characterized by higher beam divergence and lower spatial coherence. However, they can achieve higher output powers because they utilize the gain medium more efficiently by supporting multiple modes. This makes multimode lasers particularly useful in applications where high power is more critical than beam precision, such as cutting, welding, and certain medical treatments.

This article refers to: FPYL-445-XXXXT-LN (Manufacturer/Distributor: FLC Laser Type: Laser-Diode-Systems Wavelength Range: Low-Noise Mode: multimode ) - FPYL-445-XXXXT-LN - multimode Laser-Diode-Systems Wavelength 445nm (Nanometer) Power 1W (Watt)