The problems of batch manufacturing optical components in laser nuclear fusion are solved by applying the technology of the ultra precision machining.
应用超精密加工技术解决了激光核聚变光学元件的大批量加工问题。
MEMS technology is thought as one of the most prospective manufacturing technologies for optical components.
MEMS技术由于其自身的诸多优点而被认为是目前最有前景的光器件制作技术之一。
It is a real challenge to the optical manufacturing and cementing technology for this integration element.
这对光学加工和胶合技术提出了严峻的挑战。
Nanoimprint, as a non-optical lithography technology , has demonstrated its ability for semiconductor manufacturing by offering resolution below sub-10nm feature size, high throughput and low cost.
纳米压印作为非光学的下一代光刻技术,具有分辨率高、成本低、产率高等诸多优点,因而可能应用于将来的半导体制造中。
Nanoimprint, as a non-optical lithography technology , has demonstrated its ability for semiconductor manufacturing by offering resolution below sub-10nm feature size, high throughput and low cost.
纳米压印作为非光学的下一代光刻技术,具有分辨率高、成本低、产率高等诸多优点,因而可能应用于将来的半导体制造中。
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