The significant value of Jice's high-precision environmental control equipment for ultrafast lasers
Release time:
2025-11-11
Jice's high-precision environmental control equipment not only addresses current technological bottlenecks but also aims to support the research and industrialization of next-generation ultrafast laser technologies, ultimately becoming one of the core infrastructures driving the development of the entire ultrafast laser application ecosystem.
Today, as ultrafast laser technology is widely applied in cutting-edge fields such as quantum optics, micro- and nanofabrication, and bioimaging, the ultimate stability of its key parameters has become the lifeblood driving scientific breakthroughs and industrial advancements—yet even subtle fluctuations in ambient temperature are emerging as an "invisible variable" that threatens the performance of these ultrafast lasers.
The core parameters of ultrashort lasers, such as pulse width and peak power, are highly sensitive to temperature. When ambient temperature fluctuates by more than 0.8°C, the laser pulse width exhibits a noticeable "breathing effect"—an irregular, periodic oscillation in pulse duration. This phenomenon directly degrades the temporal resolution of laser pulses, which, in semiconductor micro- and nanofabrication processes, can lead to deviations in chip circuit etching accuracy from the design specifications, ultimately causing device performance failures. However, when temperature fluctuations are tightly controlled within the range of 0.4–0.5°C, the "breathing effect" in pulse width is significantly mitigated, leading to a substantial improvement in the stability of laser parameters. Therefore, in applications involving ultrashort lasers, precise temperature control directly determines the upper limit of technological value.
It is precisely based on this industry pain point that,
High-Precision Environmental Control Equipment from Jice (Nanjing) Technology Co., Ltd.
Leveraging its independently developed precision environmental control technology, it can achieve an environmental air temperature stability as high as ±0.002℃ (2mk), maintain cleanliness at ISO Class 1 level, keep humidity stability within ±0.1% RH, and control pressure fluctuations within ±3Pa. This creates a "constant-temperature fortress" specifically designed for ultrafast laser systems.
As ultrafast lasers evolve toward "shorter pulses, higher power, and more stable performance," the demands for environmental control are becoming increasingly stringent. Extremetech's highly precise environmental control equipment not only addresses current technological bottlenecks but also aims to support the research and industrialization of next-generation ultrafast laser technologies—ultimately serving as one of the core infrastructures driving the growth of the entire ultrafast laser application ecosystem.
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