Displacement measurement and surface profiling using semi-insulating photoconductive semiconductors and linearly frequency-ramped lasers

Scanning tunneling microscopes (STM) exist in two versions. In both of these, a pointed metal tip is scanned in close proximity to the specimen surface by means of three piezos. The distance of the tip from the sample is controlled by a feedback system to give a constant tunneling current between the tip and the sample. In the low-end STM, the system has a mechanical stability and a noise level to give a vertical resolution of between 0.1 nm and 1.0 nm. The atomic resolution STM can show individual atoms on the surface of the specimen.A low-end STM has been put into the specimen chamber of a scanning electron microscope (SEM). The first objective was to investigate technological problems such as surface profiling. The second objective was for exploratory studies. This second objective has already been achieved by showing that the STM can be used to study trapping sites in SiO2.

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Laser displacement measurement using intensity modulation with a phase-modulated radio-frequency signal

Applied Physics Express ◽

10.35848/1882-0786/abcf81 ◽

2020 ◽

Vol 14 (1) ◽

pp. 012004

Author(s):

Yosuke Tanaka ◽

Kyosuke Yamaguchi ◽

Kenta Yamamoto ◽

Yoshiki Yamada

Keyword(s):

Radio Frequency ◽

Intensity Modulation ◽

Displacement Measurement ◽

Frequency Signal ◽

Radio Frequency Signal

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Automated Surface Profiling of Drywall Surface for Sanding

28th International Symposium on Automation and Robotics in Construction (ISARC 2011) ◽

10.22260/isarc2011/0089 ◽

2011 ◽

Author(s):

Dony Cherian Alex ◽

Saeed Behzadipour ◽

Mohamed Al-Hussein

Keyword(s):

Surface Profiling

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A Design of High-Accuracy Displacement Measurement Instrument from Principles of Optics

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.170-173.2924 ◽

2012 ◽

Vol 170-173 ◽

pp. 2924-2928

Author(s):

Sheng Biao Chen ◽

Yun Zhi Tan

Keyword(s):

Measurement Instrument ◽

High Accuracy ◽

Mechanical Tests ◽

Total Reflection ◽

Displacement Measurement ◽

New Method ◽

Water Volume ◽

Water Drainage ◽

Accuracy Of Measurement ◽

Better Than

In order to measure the water drainage volume in soil mechanical tests accurately, it develop a new method which is based on principles of optics. And from both physical and mathematic aspects, it deduces the mathematic relationship between micro change in displacement and the increment projected on screen. The result shows that total reflection condition is better than refraction condition. What’s more, the screen could show the water volume micro variation clearly, so it can improve the accuracy of measurement.

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A multi-resolution deep feature framework for dynamic displacement measurement of bridges using vision-based tracking system

Measurement ◽

10.1016/j.measurement.2021.109847 ◽

2021 ◽

pp. 109847

Author(s):

Jinsong Zhu ◽

Chi Zhang ◽

Ziyue Lu ◽

Xingtian Li

Keyword(s):

Tracking System ◽

Displacement Measurement ◽

Dynamic Displacement ◽

Deep Feature

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Integrated, Speckle-Based Displacement Measurement for Lateral Scanning White Light Interferometry

Sensors ◽

10.3390/s21072486 ◽

2021 ◽

Vol 21 (7) ◽

pp. 2486

Author(s):

Gert Behrends ◽

Dirk Stöbener ◽

Andreas Fischer

Keyword(s):

White Light ◽

Lateral Displacement ◽

Displacement Measurement ◽

Accurate Information ◽

White Light Interferometry ◽

Fully Integrated ◽

Speckle Correlation ◽

Dsc Measurements ◽

Scanning White Light Interferometry ◽

The Impact

Lateral scanning white light interferometry (LSWLI) is a promising technique for high-resolution topography measurements on moving surfaces. To achieve resolutions typically associated with white light interferometry, accurate information on the lateral displacement of the measured surface is essential. Since the uncertainty requirement for a respective displacement measurement is currently not known, Monte Carlo simulations of LSWLI measurements are carried out at first to assess the impact of the displacement uncertainty on the topography measurement. The simulation shows that the uncertainty of the displacement measurement has a larger influence on the total height uncertainty than the uncertainty of the displacing motion itself. Secondly, a sufficiently precise displacement measurement by means of digital speckle correlation (DSC) is proposed that is fully integrated into the field of view of the interferometer. In contrast to externally applied displacement measurement systems, the integrated combination of DSC with LSWLI needs no synchronization and calibration, and it is applicable for translatory as well as rotatory scans. To demonstrate the findings, an LSWLI setup with integrated DSC measurements is realized and tested on a rotating cylindrical object with a surface made of a linear encoder strip.

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A low-finesse all-fiber sinusoidal phase modulation interferometer for displacement measurement

Optics Communications ◽

10.1016/j.optcom.2021.126997 ◽

2021 ◽

pp. 126997

Author(s):

Jin Tao ◽

Wei Wang ◽

Lars Daul ◽

Ludger Koenders ◽

Wenmei Hou

Keyword(s):

Phase Modulation ◽

Displacement Measurement

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Structural Damage Identification Based on Integrated Utilization of Inverse Finite Element Method and Pseudo-Excitation Approach

Sensors ◽

10.3390/s21020606 ◽

2021 ◽

Vol 21 (2) ◽

pp. 606

Author(s):

Tengteng Li ◽

Maosen Cao ◽

Jianle Li ◽

Lei Yang ◽

Hao Xu ◽

...

Keyword(s):

Finite Element Method ◽

Finite Element ◽

Structural Damage ◽

Damage Identification ◽

Displacement Measurement ◽

Engineering Practice ◽

Position Measurement ◽

Inverse Finite Element Method ◽

Pseudo Excitation ◽

Element Method

The attempt to integrate the applications of conventional structural deformation reconstruction strategies and vibration-based damage identification methods is made in this study, where, more specifically, the inverse finite element method (iFEM) and pseudo-excitation approach (PE) are combined for the first time, to give rise to a novel structural health monitoring (SHM) framework showing various advantages, particularly in aspects of enhanced adaptability and robustness. As the key component of the method, the inverse finite element method (iFEM) enables precise reconstruction of vibration displacements based on measured dynamic strains, which, as compared to displacement measurement, is much more adaptable to existing on-board SHM systems in engineering practice. The PE, on the other hand, is applied subsequently, relying on the reconstructed displacements for the identification of structural damage. Delamination zones in a carbon fibre reinforced plastic (CFRP) laminate are identified using the developed method. As demonstrated by the damage detection results, the iFEM-PE method possesses apparently improved accuracy and significantly enhanced noise immunity compared to the original PE approach depending on displacement measurement. Extensive parametric study is conducted to discuss the influence of a variety of factors on the effectiveness and accuracy of damage identification, including the influence of damage size and position, measurement density, sensor layout, vibration frequency and noise level. It is found that different factors are highly correlated and thus should be considered comprehensively to achieve optimal detection results. The application of the iFEM-PE method is extended to better adapt to the structural operational state, where multiple groups of vibration responses within a wide frequency band are used. Hybrid data fusion is applied to process the damage index (DI) constructed based on the multiple responses, leading to detection results capable of indicating delamination positions precisely.

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Multi-camera based full-field 3D displacement measurement using digital image correlation

2020 13th International Symposium on Computational Intelligence and Design (ISCID) ◽

10.1109/iscid51228.2020.00043 ◽

2020 ◽

Author(s):

Tianci Hu ◽

Lei Ma ◽

Dong Jiang ◽

Qingguo Fei

Keyword(s):

Digital Image Correlation ◽

Digital Image ◽

Displacement Measurement ◽

Image Correlation ◽

Full Field

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Flexible and Transparent Polymer-Based Optical Humidity Sensor

Sensors ◽

10.3390/s21113674 ◽

2021 ◽

Vol 21 (11) ◽

pp. 3674

Author(s):

Katerina Lazarova ◽

Silvia Bozhilova ◽

Sijka Ivanova ◽

Darinka Christova ◽

Tsvetanka Babeva

Keyword(s):

Humidity Sensor ◽

Amphiphilic Copolymer ◽

Poly Vinyl Alcohol ◽

Optical Monitoring ◽

Optical Contrast ◽

Successful Development ◽

Flexible Sensor ◽

Surface Profiling ◽

Humidity Range ◽

Different Levels

Thin spin-coated polymer films of amphiphilic copolymer obtained by partial acetalization of poly (vinyl alcohol) are used as humidity-sensitive media. They are deposited on polymer substrate (PET) in order to obtain a flexible humidity sensor. Pre-metallization of substrate is implemented for increasing the optical contrast of the sensor, thus improving the sensitivity. The morphology of the sensors is studied by surface profiling, while the transparency of the sensor is controlled by transmittance measurements. The sensing behavior is evaluated through monitoring of transmittance values at different levels of relative humidity gradually changing in the range 5–95% and the influence of up to 1000 bending deformations is estimated by determining the hysteresis and sensitivity of the flexible sensor after each set of deformations. The successful development of a flexible sensor for optical monitoring of humidity in a wide humidity range is demonstrated and discussed.

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