Titlebook: Automated Nanohandling by Microrobots; Sergej Fatikow (Professor, Dr.-Ing. habil.) Book 2008 Springer-Verlag London 2008 automatic control

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CON

https://doi.org/10.1007/978-88-470-1100-7ezers [1], dielectrophoresis [2], .. exist, not only would detailed commenting on every branch of biohandling go beyond the scope of this chapter, but also most of these techniques are well established, while AFM-based characterization and manipulation is a strongly developing area. A brief comparis

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,Un piccolo passo per l’umanità..., this small scale have been developed. Until that time, manufacturing processes on the micrometer scale used to be the limit. Conventional semiconductor-processing technologies are mostly limited by the achievable resolution in lithography. However, this resolution depends on the wavelength of light

隱語

https://doi.org/10.1007/978-88-470-1100-7Within the last few years, a trend towards the automation of nanohandling processes has emerged. One key problem is the development of a global sensor to measure the position of handling tools and nanoobjects during the manipulation process. The sensor data is required as feedback to enable the closed-loop positioning of the tools and nanoobjects.

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Real-time Object Tracking Inside an SEM,Within the last few years, a trend towards the automation of nanohandling processes has emerged. One key problem is the development of a global sensor to measure the position of handling tools and nanoobjects during the manipulation process. The sensor data is required as feedback to enable the closed-loop positioning of the tools and nanoobjects.

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減震

Material Nanotesting,etration of a body with a known geometry into the material’s surface. Both the force (or load) necessary for this penetration and the depth of indentation have to be measured, either separately or simultaneously.