| 1. | Ieh , international extreme ultraviolet ieh 国际极紫外飞行器 |
| 2. | Euve , extreme ultraviolet explorer euve 极紫外探测器 |
| 3. | Euv extreme ultraviolet lithography 极端紫外平版印刷 |
| 4. | Euv extreme ultraviolet radiation 超紫外辐射 |
| 5. | Extreme ultraviolet laser 极紫外激光器 |
| 6. | The first chapter is introduction , which mainly introduce the detector used in extreme ultraviolet ( euv ) and soft x - ray band 论文第一章是绪论,主要介绍了在极紫外和软x射线波段使用的一些光电探测器。 |
| 7. | Space extreme ultraviolet telescope ( eut ) will consist of four single - channel telescopes , which will be bound together and observe the same part of the solar at the same time in 13 . 0nm 17 . 1nm , 30 . 4nm and 19 . 5nm respectively 空间极紫外望远镜( eut )是由四个单通道望远镜捆绑在一起而构成,可以在四个极紫外波段13 . 0nm 、 17 . 1nm 、 30 . 4nm 、和19 . 5nm同时对日成像。 |
| 8. | Extreme ultraviolet radiation and x - ray created by magnetic field around the sunspots also cause the earth s atmosphere to heat up and expand . this will create additional drag to satellites or space shuttles orbiting at low altitudes and eventually pull them out of orbits earlier than expected 太阳黑子附近的磁场所产生的远紫外辐射和x射线,使地球大气温度上升并且膨胀,这对在较低轨道运行的人造卫星或穿梭机带来阻力,令它们比预期提早偏离轨道。 |
| 9. | Extreme ultraviolet lithography is being developed as one of the most important candidates to fabricate a sub - o . lum - pattern . in recent years , several key technologies have been developed rapidly such as laser producing plasma source , extreme ultraviolet multilayer , optical fabrication and metrology , projection - camara alignment , low - defect mask and control technology of stage 极紫外投影光刻( extremeultravioletlithography简称euvl )最有可能成为下一世纪生产线宽小于0 . 1 m集成电路的技术,近年来在激光等离子体光源、极紫外多层膜、光学加工和检测、光学精密装调、低缺陷掩模、光刻胶技术以及高稳定工作台系统控制等关键技术方面得到了飞速发展。 |
| 10. | The space observation in soft x - ray and extreme ultraviolet ( euv ) region is an important portion of the space astronomy and an effective solar observation method developed increasingly . in this thesis we designed a euv multi spectrum space solar telescope ( eut ) based on the requirement of high angular resolution and wide field of view for solar observations ; investigated the transmission performance of eut ; invented a method of eut pointing calibration on the space orbit and solved the high precision pointing calibration problems ; constructed a prototype of 17 . 1nm telescope , tested the possibility of eut design , and developed some cutting - edge techniques 本文根据空间平台上高分辨率对日观测的需要,设计出一种可以在四个极紫外波段对日同时成像多光谱太阳望远镜( eut ) ;研究了极紫外( euv )波段太阳望远镜光学传输特性;提出了真空紫外波段在轨指向的标定方法,解决了高精度指向标定问题;研制出一台17 . 1nm望远镜的地面样机,验证eut设计的可行性,攻克了部分关键的技术难关;为进一步的研究工作奠定了基础。 |