次微米

市场的开拓，技术的创新，成本的构成以及开发工具的使用，无一不受次微米时代的影响。

Market dynamics , technology innovation , cost models , and tools , have all been affected by the deep submicron era .

摘要本文主要是使用云凝结核计数器进行实地量测以探讨次微米气溶胶活化能力的特性，并进一步应用到辐射效应上。

This study is aimed to estimate the activation capacity of submicron aerosols and their radiation effect , based on CCN measurements .

经由模拟及量测结果，次微米光栅可以破坏氮化镓结构内的光波导模态（waveguidemode），使结构内部的光经由次微米光栅萃取出来。

By simulation and measurement result , sub-micro grating can destroy waveguide mode of GaN epitaxy structure , let light extract from inside of structure .

相信这样的方法，能够帮助设计者面对深次微米制程（deep-submicron）的挑战，加快设计速度以及提升电路良率。

We believe that these approaches can help analog designers overcome the design challenges with deep-submicron technologies .

除金刚石为纳米级大小外，其他为微米和次微米级颗粒。

Except for nanometer sized diamond , the other grains are micrometers to submicrometers in size .

在观测期间中午之前的次微米气溶胶活化率高于下午之后，可能与空气品质中总碳氢化合物有关。

During the observation period activation ratio of the sub-micrometer aerosol before noon is higher than that in afternoon .

摘要随著制程技术缩小至深次微米，制程变异容忍度在时钟树设计上已成为一个重要的课题。

As manufacturing technology shrinks to the deep submicron process , the tolerance of process variation becomes an important subject in the clock tree design .

以YAG：Nd~（3+）激光器二次谐波0.532微米激光为泵源，对室温条件下运转的重复脉冲工作的LiF晶体F2心激光器做了初步的实验研究和机理的讨论。

The second harmonics of YAG : Nd3 + laser at 0.532m was used as the pumping source . The experimental study was conducted on room temperature repetitive LiF crystal Fa center lasers , and the mechanisms concerned are discussed .