探针是所有扫描探针显微镜的关键部件。
Probe is a crucial part of all the scanning probe microscopes.
三维压电陶瓷扫描器是扫描探针显微镜的关键部件。
The piezoelectric scanner is one of the key components of scanning probe microscope.
探讨了外界激振对扫描探针显微镜(SPM)扫描图像的影响。
The influence of external vibration on scanned images of scanning probe microscope (SPM) is discussed.
近场光显微镜(NFOM)是一种高分辩率的扫描探针显微镜。
Near Field Optical Microscope (NFOM) is a kind of scanning probe microscopy with high resolution.
扫描探针显微镜(SPM)当前的发展趋势是功能复合化和数字化。
A general trend of Scanning Probe Microscope (SPM) is to multiple functionality and digitalization.
本文将介绍扫描探针显微镜及其在微电子工艺和器件微分析中的应用。
This paper gives an overview of SPM technology and its applications in microanalysis of microelectronics process and devices.
利用扫描探针显微镜(SPM)能够实现纳米级电子器件和机械器件的加工。
Nanofabrication in electrical field by Scanning Probe Microscope (SPM) can fabricate electrical devices and mechanical structures in nanometer scale.
单管式扫描器的结构误差是影响扫描探针显微镜测量精度的主要误差因素之一。
Tube scanner′s structure errors have great effect on the measurement accuracy of Scanning Probe Microscope(SPM).
电化学扫描探针显微镜(ECSPM)已成为研究固-液界面结构的有力的工具。
Electrochemical scanning probe microscopes (ECSPM) have become one of the most powerful techniques for studies of solid liquid interfaces.
碳纳米管由于特殊的空间结构和突出的物理性能而广泛用于各类扫描探针显微镜。
Carbon nanotube has been expected to be a suitable material to the apex of scanning probe microscopy (SPM) tips because of its unique physical properties and special structures.
拓宽了扫描探针显微技术的应用范围,在实验方法和研究成果上具有明业的创新性。
The experimental methods are novel and the results new, further expanding the field of application of scanning probe microscopy.
扫描探针显微镜- d21提供自动频率,相位和电压匹配使用模拟或离散输出信号。
The SPM-D21 provides automatic frequency, phase and voltage matching using either analog or discrete output signals.
压电工作台属典型的压电元件驱动的微定位器,在扫描探针显微镜等仪器设备中应用较广。
Piezoelectrically driven micropositioning stage (piezo-stage) is one of the typical piezoelectrically driven actuator which is widely used in scanning probe microscopy.
而基于扫描探针显微镜(SPM)的纳米加工技术是迄今为止最为简单的一种纳米加工技术。
Moreover, nanofabrication technology based on SPM is by far the most simple of a nanofabrication technology.
目前,我国引进的一般商业性的SPM(扫描探针显微镜)中缺少误差的自动修正和改进系统。
Up to now the imported commercial scanning probe microscope (SPM) has not an automatic error correcting and reducing system.
扫描离子电导显微镜技术是在纳米尺度进行非导电的生物样品成像的一种新型扫描探针显微镜技术。
As a new kind of scanning probe microscopy, scanning ion conductance microscopy (SICM) is designed for imaging non-conducting biological sample at the nanometer scale.
一个快速的水管解耦许可证扫描探针显微镜- d21运作,在水管平行没有额外的外部保护继电器。
A quick mains decoupling permits the SPM-D21 to operate in mains parallel without additional external protection relays.
扫描探针显微镜(SPM)现在不仅用于表面微观形貌的检测,同时也用于纳米超精密加工和原子操纵。
Scanning probe microscope (SPM) is used not only for measuring the micro profiles of surfaces, but also for nano ultraprecise machining and atom manipulation now.
选用典型的二氧化钛纳米超亲水薄膜,用扫描探针显微镜(SPM)和电化学测试系统进行一般性的表征。
A typical nanostructured titania super hydrophilic film was chosen for general characterization employing a Scanning Probe Microscope (SPM) and an electrochemical measurement system.
扫描探针显微镜是近十几年来在表面特征、表面形貌观测方面最重大的进展之一,是纳米测量学的基本工具。
The scanning probe microscope is one of the most important developments on observing and determining surface topography and surface properties in near ten years and is basic tool of nano-measurement.
对扫描探针显微镜(SPM)仪器漂移的定量测量的几种方法进行探讨,提出应用二维零位标记进行漂移测量。
Several quantitative drift measurement techniques for scanning probe microscopy (SPM) were introduced. A new method using two-dimensional zero-reference masks was proposed to measure the SPM drift.
提高作为纳米科技的“眼”和“手”的扫描探针显微镜(SPM)的测量和定位精度,是纳米仪器界始终追求的目标。
It is an objective for nanometer instrument researcher to improve the measurement precision of scanning probe microscope (SPM), the eye and hand of nanometer science and technology.
针对扫描探针显微镜中扫描图像显示的大小与实际大小存在较大误差,提出了基于图像处理和人工神经网络标定的方法。
Aiming at big discrepancy between SPM scan image display size and it's actual size, an automatic calibration method based on digital image processing and artificial neural network was proposed.
用透射电子显微镜、扫描探针显微镜、紫外-可见分光光度计和热重分析仪表征了复合材料的物理性能,分析了其吸收蓝移及热稳定性提高的机理。
The physical properties are characterized by TEM, SPM, UV-Vis and TGA. The mechanism of absorption blue-shift effect and the improving of thermal stability of nanocomposite materials are analyzed.
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).
测量中,把扫描隧道显微镜的探针扫描线作为参考栅,把物质原子晶格栅结构作为试件栅,对这两组栅线干涉形成的云纹进行了纳米级变形测量。
In the measurement, the moire pattern is generated by the scanning line of scanning tunneling microscope and the atomic lattice of substance as a specimen grating.
分别用电子探针(EPMA)、X衍射(XRD)和扫描电镜(SEM)查证了其组分、相结构和显微结构的梯度分布。
The distributions of composition, phase-and microstructure were examined respectively by using electron probe microanalysis (EPMA), X-ray Diffraction (XRD) and scanning electron microscopy (SEM).
针对法兰盘加工面上出现的黑纹缺陷,采用光学显微镜、扫描电镜和电子探针等测试方法对其进行了分析。
Analysis is made on the dark lines defects occurring over the working surface of flange by measurement with the optical microscope, Scanning electro microscope (SEM) and electronic probe.
针对法兰盘加工面上出现的黑纹缺陷,采用光学显微镜、扫描电镜和电子探针等测试方法对其进行了分析。
Analysis is made on the dark lines defects occurring over the working surface of flange by measurement with the optical microscope, Scanning electro microscope (SEM) and electronic probe.
应用推荐