| 1. | The second section is to design diffractive microlenses
第二部分为衍射微透镜的设计。 |
| 2. | The third section is to analyze the optical characteristic of diffractive microlenses
第三部分是对衍射微透镜光学特性的分析。 |
| 3. | The above two algorithms of bor fdtd and vpws are used to the analysis of subwavelength diffractive microlenses , the analysis process and program flow chart are shown
给出了应用borfdtd与vpws算法分析亚波长衍射微透镜的分析过程和程序流程图。 |
| 4. | In the dissertation multilevel microlenses and binary subwavelength diffractive microlenses are designed , design methods and configuring formulas and design examples are illustrated
本论文给出了多台阶衍射微透镜和二台阶亚波长衍射微透镜的设计方法、面形公式、设计实例。 |
| 5. | The effects of depth error and width error on diffractive microlenses are discussed . i find that there are little influences on diffractive microlenses when the relative fabrication error is small
讨论了深度误差和宽度误差对衍射微透镜的影响,发现相对误差不大时制作误差对衍射微透镜的影响不大。 |
| 6. | Conventional mos image sensors require polymer onchip microlenses and dyed rgb color filters , which are fragile and extremely susceptible to sunlight exposure and a change in temperature
传统的mos图像传感器需要采用聚合在电路板上的微透镜和染色rgb颜色过滤器,这种脆性材料非常易碎,而且在日晒下和温度变化时极其易受影响。 |
| 7. | Two kinds method of design binary subwavelength diffractive microlenses are illustrated with emphasis . i obtained the result that the method of subwavelength pulse - width modulation is better than the method of linear approximation for continuous phase piece in designing binary subwavelength diffractive microlenses by comparing them
重点说明了二台阶亚波长衍射微透镜的两种设计方法,并对两种方法作了比较,得出了亚波长结构的脉冲宽度调制法优于连续位相的线性进似法的结论。 |
