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The 355nm YAG UV Laser is an advanced laser system designed to emit high-energy pulses in the ultraviolet (UV) spectrum at a specific wavelength of 355 nanometers. Typically based on neodymium-doped yttrium aluminum garnet (Nd: YAG) technology, this laser system caters to various industrial, scientific, and research applications requiring precise and controlled UV energy delivery. Operating at a specific UV wavelength of 355nm, this laser system provides precise and targeted energy, suitable for materials and applications sensitive to UV light within this wavelength range. Capable of generating high-energy pulses in the UV spectrum, enabling precise material processing, ablation, and modification for a wide range of industrial and scientific applications.
The core component of the 266nm UV laser is a diode-pumped solid-state laser. It consists of a laser medium, a pump source and an optical cavity. The laser medium usually uses Nd:YAG (neodymium-doped alumina yttrium) crystals, while the pump source uses a high-power diode laser.
In the working process, the laser generated by the pump source is focused by the optical system and input into the laser medium. The laser medium converts the pumped laser into a higher energy laser through the process of stimulated radiation. After many reflections and amplification, the final ultraviolet laser output of 266nm wavelength is formed.
355nm YAG UV laser is an efficient and versatile laser device with a wide range of applications. It uses Nd:YAG crystal as the laser medium and triple frequency doubling technology to convert the 1064nm infrared laser to a 355nm ultraviolet laser. 355nm UV laser has high energy density, a short wavelength, and unique optical effects. It is stable and reliable, making it suitable for microelectronics processing, material processing, scientific research, and medical cosmetology. The laser enables high precise and efficient processing, advancing technology and innovation in various industries.
YLF laser crystal laser is a kind of laser based on Yttrium Lithium Fluoride crystal, which has the characteristics of high efficiency, stability and wide operating spectrum.
532nm YAG green laser is an efficient and stable laser with a wide range of applications. It is obtained by frequency conversion of the 1064nm infrared laser using YAG crystal as the activator. The green laser has high energy density and good beam quality. It is efficient, stable, and has a narrow output width. The power and frequency can be adjusted and controlled easily. It is safe and reliable with multiple protection mechanisms. Applications include laser display, biomedicine, scientific experiments, and traffic signals. 532nm YAG green laser has provided reliable performance.
High power stability: The 1064nm YAG infrared laser has high power stability and can output the laser signal stably for a long time to ensure work efficiency and consistency.
Narrow spectral line width: The laser spectral line width is very narrow, can provide a high quality laser beam, suitable for applications with high beam quality requirements.
High beam quality: The 1064nm YAG infrared laser beam quality is high, can provide strong focusing ability, good spot quality laser beam, suitable for fine processing and high-precision measurement.
The 1064nm YAG infrared laser is a solid-state laser with high power stability, narrow spectral line width and high beam quality
1342nm infrared laser, as an optical device with unique characteristics and wide application prospects . Its high energy conversion efficiency, excellent beam quality and stability make it widely used in the fields of laser cutting, laser marking and laser welding.
Three-wavelength laser is a new laser technology, which has a wide application prospect. It is based on the mixed output of lasers of different wavelengths and is suitable for fields such as medicine, communications and material processing. In the medical field, it can be used for skin treatment and eye surgery. In the field of communication, the system structure and maintenance costs can be simplified; In the field of material processing, it has the advantage of high precision and high efficiency. Future development requires improving technical accuracy, reducing costs, and optimizing according to the needs of different fields. It is expected that three-wavelength lasers will play a more important role in fields such as medicine, communication and material processing, contributing to social development.