FOLM-633-40-RO
Laser Type: Laser-Diode-Modules Wavelength Range: Visible

Description:

Laser Type: FOLM

FOLM (Fiber Optic Laser Module) lasers excel in telecommunications, medical procedures, industrial applications, and scientific research due to their high efficiency, precision, flexibility, and reliability. Their ability to deliver precise, controlled laser beams with minimal signal loss and low power consumption makes them indispensable in these fields.

Laser Type: Laser-Diode-Modules

Laser diode modules excel in applications requiring precision, efficiency, and reliability. They are particularly effective in industrial settings for cutting, welding, and marking materials; in medical fields for surgical procedures and diagnostic equipment; in communication technologies for fiber optic data transmission; and in scientific research for spectroscopy and microscopy. Their compact size, high efficiency, and ability to produce focused, coherent light make them indispensable in these areas.

Wavelength Range: Visible

Visible lasers are highly valued for their high precision, brightness, and versatility. Their coherent and monochromatic nature makes them ideal for various precision applications. Green lasers, for example, are highly visible even at low power, beneficial for pointers and alignment tools. The range of wavelengths available allows for diverse applications across different fields, highlighting the importance of visible lasers in technology, medicine, and science.

Mode: singlemode

Singlemode lasers are specialized lasers designed to support only one transverse and one longitudinal mode, resulting in a highly coherent and precise beam. These lasers typically operate in the fundamental transverse mode, known as TEM00, which has a Gaussian intensity distribution. This mode is characterized by a single-lobed, symmetric profile, making it ideal for applications requiring high precision and beam quality.

Application: Medical

Lasers have been used in medical applications since the 1960s. The first medical use of a laser occurred in 1961, shortly after the invention of the laser, when an ophthalmologist named Dr. Charles J. Campbell used a ruby laser to treat a retinal tumor. This breakthrough marked the beginning of the integration of laser technology into various medical fields, leading to the diverse and advanced applications we see today.

This article refers to: FOLM-633-40-RO (Laser Type: Laser-Diode-Modules Wavelength Range: Visible Mode: singlemode Application: Medical ) - FOLM-633-40-RO - singlemode Laser-Diode-Modules Wavelength 633nm (Nanometer) Power 0.04W (Watt)