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tube scanner
相关语句
  单管式扫描器
    A Study on the Scanning Probe Microscope Tube Scanner′s Structure Errors
    扫描探针显微镜单管式扫描器结构误差的研究
短句来源
    Tube scanner′s structure errors have great effect on the measurement accuracy of Scanning Probe Microscope(SPM).
    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。
短句来源
  管式扫描器
    Kinematics Modeling and Error Analysis of AFM Tube Scanner
    原子力显微镜管式扫描器运动学建模与误差分析
短句来源
    This paper proposes a new STM design, in which the traditional tube scanner and tripod scanner are replaced by separated Z scanning and X-Y scanning, and three interferometers are used to measure X, Y, and Z displacements between the sample and tip. Z scanning is conducted by a single tube scanner, and the flexible parallel four-bar mechanism is employed for X-Y scanning.
    微型激光干涉仪用来测量探针相对于样品在3个方向上空间位移. 与其它STM纳米计量仪器相比,该仪器扫描部分放弃了传统管式扫描器和三角架扫描器,将扫描分为Z向和X Y平面扫描两部分,Z向扫描由独立的PZT驱动,X Y扫描由两个PZT驱动的柔性平行四杆导轨完成.
短句来源
  “tube scanner”译为未确定词的双语例句
    Nonlinear Calibration of Piezoceramic Tube Scanner
    压电陶瓷管扫描器非线性校正
短句来源
    And the other techniques in NSOM suchas anti-vibration, automatically coarse approach, PZT single tube scanner and itselectronics, control program, data acquisition and image processing wereaccomplished.
    此外,本文还完成了NSOM的减振、探针与样品之间的自动粗逼近、三维扫描压电陶瓷管(PZT)及其扫描控制电路、光电探测、数据采集和图像处理等,最后建立了透射式NSOM装置。
短句来源
    Then, this dissertation collects thetypical configurations of current AFM instruments, as well as that of the NSPM 6800.After that, the steps of how to increasing the scan range of NSPM 6800 is presentedas follow : 1)using the piezostack in stead of the piezo tube scanner to increase scanrange;
    针对这两点,本课题深入分析了国际上典型原子力显微镜产品及NSPM6800扫描探头部分的结构,提出了扩大NSPM6800扫描范围的总体设计方案:在扫描器性能改进方面,采用堆形结构的压电扫描器;
短句来源
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  tube scanner
Theoretical models are attempted for eight moderate excitation planetary nebulae which have been intensively observed with the image-tube scanner at Lick and in other investigations.
      
Spectroscopic results are presented for most of the nebulae observed in a programme involving some forty planetaries measured with an image tube scanner at Lick Observatory and with a photo-electric spectrum scanner at Mt.
      
Using this method we have calibrated a?tube scanner.
      
An Inchworm is used for coarse approach and a single tube scanner for x-, y-, and z-motions.
      
This sensor is mounted on a piezo tube scanner that applies scanning probe techniques to position the tip with nanometer precision.
      
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In this paper the formula of deflection of the tube scanner for PSTM is de- rived. The deflection range, its linear and the x-z coupling are analyzed. A useful method has been developed to make optical fiber probe tips with smooth surface. A new experimental method to measure the deflection of PZT is reported. The experimental data are consistent with theory results. Therefore, some key problems in both theory and technigne for PSTM can be resolved.

本文推导了光子扫描隧道显微镜(PSTM)系统扫描器压电偏转量的计算公式,给出了实用的光纤探针制备过程,提出了一种测试毫微米级偏转量和偏转线性的光学方法,并做了实际测试,从而给出了PSTM系统提高分辨和扫描范围的途径,解决了系统信息采集部分的一些理论和技术问题。

Owing to its structural defects,the scanning tunneling microscope tube scanner will cause structural errors when moving.Of the errors the cross coupling error and nonorthogonal error are the two important structural errors.In this paper these two errors are analyzed theoretically and quantitatively.The error formula and relation curves are obtained.All the results are verified in experiments,and some error compensating methods are presented....

Owing to its structural defects,the scanning tunneling microscope tube scanner will cause structural errors when moving.Of the errors the cross coupling error and nonorthogonal error are the two important structural errors.In this paper these two errors are analyzed theoretically and quantitatively.The error formula and relation curves are obtained.All the results are verified in experiments,and some error compensating methods are presented.

由于扫描隧道显微镜(STM)管式扫描器自身结构的不完善,在运动过程中会产生一定的结构误差,交叉耦合误差和非正交误差是其中两项重要的误差.本文对这两项误差进行了定量的理论分析,得到了相应的误差公式及误差曲线,并通过实验验证了理论推导结果的正确性.最后,根据对误差产生原因的研究,文中还提出了一些相应的误差补偿措施.

Tube scanner′s structure errors have great effect on the measurement accuracy of Scanning Probe Microscope(SPM).In this paper,these structure errors,including cross coupling error,nonorthogonal error and scanner′s shape error,are studied theoretically and experimentally.In addition,some compensating methods for them are presented.

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。本文对单管式扫描器的结构误差,主要包括交叉耦合误差、非正交误差以及扫描器形状误差,进行了实验和理论研究,并提出了一些相应的补偿措施。

 
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