| 1. | Far - field optics detection and near - field optics detection
远场光学探测与近场光学探测 |
| 2. | Summarization of nearfield optical microscopy
近场光学显微技术 |
| 3. | The imaging realization of non - probe near - field optical microscope
非探针近场光学显微镜的成像实现 |
| 4. | And then , the application of snom in biological membrane was reviewed , meanwhile its application prospect in biological membrane was also discussed
并在此基础上着重介绍近场光学显微镜在生物膜方面的应用。 |
| 5. | Studies on the methods for fiber tip fabrication and tip - sample distance controlling , which are vital for high quality snom imaging , were the research focus of the first part of the theses
对近场光学显微镜而言,光纤探针制备与探针-样品间距控制是保证成像质量的两个关键因素。 |
| 6. | The thesis made a primary investigation on the measurement of light field distribution of optical waveguides using scanning near - field optical microscope ( snom ) , a technique that has emerged recently
光波导的近场光学显微检测是近年出现的一种新型检测技术,本文对此技术进行了初步的理论和实验研究。 |
| 7. | In modern imaging and measurement field , neither the near field optical microscope nor the conventional far field optical microscope is able to meet the technical need of large scale and high spatial resolution
近场光学显微镜和传统的远场光学显微镜都已无法满足现代成像检测对大范围、高空间分辨能力的技术要求。 |
| 8. | In this article , we discussed advantages of scanning near - field optical microscope ( snom ) over conventional optical microscope , atomic force microscope ( afm ) , and scanning tunneling microscope ( stm )
摘要本文首先介绍近场光学显微镜的基本原理,然后介绍近场光学显微镜与传统光学显微镜、原子力显微镜、扫描隧道显微镜相比,在生物膜研究方面的优势。 |
| 9. | In chaper 1 , we give a summary and an overall review for the descriptions and measurements of random surfaces , the light scattering theory and its applications in the characterization of random surfaces , and the near - field optics and the near - field speckles
第一章对随机表面的描述和标定方法、光散射轮廓特性及其重要性、近场光学和近场散射的意义和近场散斑的特性进行了综述。 |
| 10. | A snom with a scanning area as large as 80mm x 80mm was constructed for measurement of waveguides with large dimension . the varying of light intensity above an optical waveguide with the tip - sample distance has been measured using the snom
为了检测大尺寸光波导,搭建了一套大范围近场光学显微镜,其检测范围可达到80mm 80mm ,并测量得到了光波导表面的光强随探针样品间距变化曲线。 |
