The 266nm deep ultraviolet picosecond laser uses a picosecond seed source, and through spectral control, multi-stage amplification, and nonlinear frequency doubling technology, the output mode is close to the fundamental mode. This series of lasers has excellent beam quality, high reliability, long lifespan, and user-friendly human-computer interaction, and can be used for light curing, display repair, special material processing, and fluorescence detection.
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The 266nm deep ultraviolet continuous laser adopts high-precision design, with a wavelength strictly controlled within 266nm ± 0.25nm. Combined with excellent performance of linewidth<100kHz>100:1, it provides a stable and reliable light source for scientific research, medical and industrial fields. Its output power is 0.5W (customizable), with high beam quality of M ²<1>200 hours, meeting the needs of long-term continuous operation. The short pulse characteristic effectively reduces the heat affected zone, and with the flexible configuration of 25 movable points, it can achieve efficient non-contact processing of brittle materials. The overall lifespan of the machine is over 5000 hours, with a compact design that facilitates integration. It is widely used in fields such as spectral analysis, biotechnology, environmental monitoring, and medical surgery, with high energy density and stable performance to support the development of precision technology.
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This 355nm ultraviolet picosecond laser adopts a self-developed fiber picosecond seed source and solid-state amplification technology route, which can achieve a working life of>20000 hours. Integrated design of optoelectronics, compact structure, and small volume. Suitable for the field of industrial micro nano processing.
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This 343nm ultraviolet femtosecond laser has a pulse width of less than 500fs and a small processing heat affected area. It is mainly used in fields such as drilling micro holes in high-temperature alloys and cutting thin film materials.
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