本文主要围绕近场光学显微镜关键部件—光纤探针的研制改进展开。
The paper is related to the optical fiber probe, which is the key part of NSOM.
利用此法可制备出尖端锐利、大锥角或多锥体等各种结构的光纤探针。
Probes of various structures, such as large cone angle and short taper or multi-taper, can be formed with the combination of the static and dynamical chemical etching methods.
光纤探针作为三维形貌测量技术的传感器,具有非接触、高精度等优点。
As a method of acquisition sensor, optical fiber probe has many advantages, such as noncontact, high accuracy.
利用光纤探针试验研究垂直上升管内气、水、油三相弹状流截面相份额的规律。
An optical fiber probe is used to study the cross-section of oil-gas-water three-phase slug flow in vertical tubes.
基于液压传递原理,设计出一种用动态化学腐蚀法制备大锥角近场光纤探针的装置。
According to the hydraulic transmission principle, a device for fabricating large cone Angle near-field optical fiber probe by means of dynamic chemical etching is developed.
对冲击波参数的测量开发了两种光纤探针,以满足强电磁环境和冲击压力较低的情况。
Two types of fiber-optic pin have been developed for measuring shock wave physics characters in strong electromagnetic environment and low shock pressure experiments.
通过使用原子吸收光谱仪,扫描显微镜和能量色散X射线谱仪对覆膜光纤探针进行表征。
Atomic absorption spectrometry (AAS), scanning electron microscopy (SEM), and energy dispersive X-ray spectrometry (EDXS) are carried out to characterize the deposition on fiber probe.
基于虹吸原理,设计了一种动态化学腐蚀法的简易装置,用于制备近场光学显微镜光纤探针。
A simple dynamic chemical etching device based on siphon principle is developed for fabrication of optical fiber probes which are commonly used in near-field optical microscopy.
本论文基于分子自组装技术制备了多种形貌的光纤探针和用于水中铜离子检测的组氨酸修饰金电极。
Optical fiber probes with various shapes and gold electrodes modified with histidine for determining copper in water have been fabricated based on self-assembled technology in this dissertation.
利用该方法研制的成品弯曲光纤探针应用于光子扫描隧道显微镜系统,得到了比较理想的样品图像。
The bend optical fiber probe is used in developed NSOM system and the perfect images are obtained.
纳米光纤探针作为近场光学显微镜和纳米光纤生物传感器中的关键元件,用于微小尺度物体的检测和分析。
Fiber-optical nanoprobes are the key elements for detecting and analyzing micro-scale objects in near-field optical microscopes and fiber-optical nano-biosensors.
光纤倏逝波生物传感器系统中,利用激光在光纤探针中传播时产生的倏逝波来激发荧光物质,产生荧光信号。
The evanescent wave-based optical fiber biosensor USES the evanescent wave which is produced when light propagates in the fiber probe to excite the fluorescence signal.
针对小范围内水下激光爆炸所产生的等离子体冲击波检测问题,对单模石英光纤探针探测方法进行了初步实验研究。
Aiming at solving the detective problem of laser-induced plasma shock-wave underwater in small domain, a method of single mode quartz fiber probe has been studied on experiment preliminarily.
本文介绍了拉曼光纤探针的原理及研究进展,对其在工业化学、生物等领域的应用做了总结,并对其应用前景做了预测。
In this article, we introduced the principle of FORP, summarized the application of FORP in industry, chemistry and biology. Finally we gave its direction of development.
采用三维时间域有限差分(FDTD)方法研究了扫描近场光学显微镜中光纤微探针的近场分布特性。
The near field distribution of uncoated and metal coated fiber optic probes were characterized by the method of three dimensional finite difference time domain (FDTD).
本文介绍了一种探针型光纤传感器。其结构简单、灵敏度高。
This paper presents a probe-shaped optical fiber sensor with a simple construction and a high sensitivity.
通过在光纤传感区一端的光纤端面镀全反射膜形成探针型传感结构。
The model of the sensor was developed on the basis of wave guide theory.
通过在光纤传感区一端的光纤端面镀全反射膜形成探针型传感结构。
The model of the sensor was developed on the basis of wave guide theory.
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