FPYL-671-XXXXT-LN_1000 (FPYL-671-XXXXT-LN)
Manufacturer/Distributor: FLC Laser Type: DPSS-Laser

Description:

Manufacturer/Distributor: FLC

Frankfurt Laser Company (FLC), established in 1994, is a prominent global supplier of laser technologies. They offer a wide range of laser diodes, including FP, DFB, and DBR types, covering wavelengths from 213 nm to 20 µm and power ranges from 1 mW to 5600 W. Known for their innovative solutions, FLC caters to various industries such as machine vision, manufacturing, medicine, and aerospace​​. Celebrating their 30th anniversary in 2024, FLC continues to lead in laser technology advancements.​

Laser Type: DPSS-Laser

DPSS lasers are used in a broad array of applications, including scientific research for precision measurements, spectroscopy, and laser cooling. In the medical field, they are employed in ophthalmology, dermatology, and various surgical procedures. Industrial uses include material processing, engraving, and cutting, while consumer electronics benefit from their use in laser pointers and optical disc drives.

Wavelength Range: Visible

Lasers operating within the visible spectrum emit light that appears as colors ranging from violet (at the shorter wavelength end) to red (at the longer wavelength end). For instance, violet light falls within the 380-450 nm range, blue from 450-495 nm, green from 495-570 nm, yellow from 570-590 nm, orange from 590-620 nm, and red from 620-750 nm.

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 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: FPYL-671-XXXXT-LN_1000 (FPYL-671-XXXXT-LN) (Manufacturer/Distributor: FLC Laser Type: DPSS-Laser Wavelength Range: Low-Noise Mode: multimode ) - FPYL-671-XXXXT-LN - multimode DPSS-Laser Wavelength 671nm (Nanometer) Power 1W (Watt)