レーザーEXPO A-21
Shanghai Yizhong Technology Co., Ltd. is a high-tech company specializing in the research and development, production, sales, and service of high-power laser technology. As a professional manufacturer of high-power laser systems, the company has established the ability to achieve the transmission, amplification, shaping, and focusing control of any pulse seed light. A pattern of integrated laser design, mechanical design, clean installation and calibration, and system integration has been formed. The company can provide laser systems for different application fields such as scientific research and laser processing.
The all fiber integrated seed light source developed by the company can achieve seed pulse light output with different pulse shapes, widths, and polarization states. A comprehensive laser transmission, amplification, and spatial shaping system can achieve high gain output. We can provide solutions for picosecond to nanosecond high-energy laser systems, sub nanosecond to tens of nanosecond laser systems with arbitrary time waveform shaping and high beam quality, high-frequency laser systems with high beam quality, and terawatt and petawatt level tabletop ultra short pulse laser systems.
It combines the characteristics of high energy and excellent beam quality. By adopting a combination of regenerative amplification and multi-stage rod amplification technology, high beam quality output is achieved with a fundamental frequency of 7J, a doubling frequency of 5J, and a repetition frequency of 10Hz. It is mainly used in OPCPA pump sources, plasma physics, and laser shock strengthening.
It is based on the principle of optical addressing, achieving real-time controllability of the intensity distribution (or phase distribution) of each point in the laser beam space. Compared with transmission type electrically addressed spatial light modulators, it has advantages such as high transmittance and no multi-level diffraction patterns. It adopts a transparent design and integrated packaging.
It combines the chemical reactions of chemical solutions and the effects of mechanical grinding to achieve surface smoothing treatment of materials such as silicon wafers and glass substrates. It can achieve high-precision polishing at the nanoscale. It is equipped with an automated control system that can accurately adjust and monitor polishing parameters in real-time, ensuring stable polishing effects and adapting to various polishing processes.
Shanghai Yizhong Technology Co., Ltd. is a high-tech company specializing in the research and development, production, sales, and service of high-power laser technology. As a professional manufacturer of high-power laser systems, the company has established the ability to achieve the transmission, amplification, shaping, and focusing control of any pulse seed light. A pattern of integrated laser design, mechanical design, clean installation and calibration, and system integration has been formed. The company can provide laser systems for different application fields such as scientific research and laser processing.
The all fiber integrated seed light source developed by the company can achieve seed pulse light output with different pulse shapes, widths, and polarization states. A comprehensive laser transmission, amplification, and spatial shaping system can achieve high gain output. We can provide solutions for picosecond to nanosecond high-energy laser systems, sub nanosecond to tens of nanosecond laser systems with arbitrary time waveform shaping and high beam quality, high-frequency laser systems with high beam quality, and terawatt and petawatt level tabletop ultra short pulse laser systems.
It combines the characteristics of high energy and excellent beam quality. By adopting a combination of regenerative amplification and multi-stage rod amplification technology, high beam quality output is achieved with a fundamental frequency of 7J, a doubling frequency of 5J, and a repetition frequency of 10Hz. It is mainly used in OPCPA pump sources, plasma physics, and laser shock strengthening.
It is based on the principle of optical addressing, achieving real-time controllability of the intensity distribution (or phase distribution) of each point in the laser beam space. Compared with transmission type electrically addressed spatial light modulators, it has advantages such as high transmittance and no multi-level diffraction patterns. It adopts a transparent design and integrated packaging.
It combines the chemical reactions of chemical solutions and the effects of mechanical grinding to achieve surface smoothing treatment of materials such as silicon wafers and glass substrates. It can achieve high-precision polishing at the nanoscale. It is equipped with an automated control system that can accurately adjust and monitor polishing parameters in real-time, ensuring stable polishing effects and adapting to various polishing processes.