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Damping mechanisms in dynamic mode atomic force microscopy applications

机译：动态模式原子力显微镜应用中的阻尼机制

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摘要

We consider the cantilever beam model proposed in the seminal paper of Sader, where fluid damping effects on an oscillating cantilever are modeled. We show that in Sader's model, the transfer function of base-to-tip displacement fails to display high-frequency roll-off. It turns out that this is also true for the widely-used viscous damped beam model. We further demonstrate that the addition of Voigt damping to Sader's model creates the high frequency roll-off expected of a realistic model.

机译：我们考虑在Sader的开创性论文中提出的悬臂梁模型，其中对振动悬臂的流体阻尼效应进行了建模。我们表明，在萨德尔模型中，基点到尖端位移的传递函数无法显示高频滚降。事实证明，对于广泛使用的粘性阻尼梁模型也是如此。我们进一步证明，在萨德尔模型中增加Voigt阻尼会创建实际模型所期望的高频衰减。

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来源
《American Control Conference;ACC '09 》|2009年|2272-2277|共6页
会议地点 St. Louis, MO(US);St. Louis, MO(US)
作者
Fardad, M.; Jovanovic, M.R.; Salapaka, M.V.;
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作者单位

Dept. of Electr. Eng. & Comput. Sci. Syracuse Univ. Syracuse NY USA;

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关键词
atomic force microscopy; beams (structures); cantilevers; damping; mechanical control equipment; transfer functions; Sader model; Voigt damping; base-to-tip displacement; cantilever beam model; damping mechanism; dynamic mode atomic force microscopy; fluid damping effect; oscillating cantilever; transfer function; viscous damped beam model;

机译：原子力显微镜梁（结构）；悬臂阻尼机械控制设备；传递函数；萨德尔模型； Voigt阻尼；尖端到尖端的位移悬臂梁模型阻尼机制动态模式原子力显微镜；流体阻尼作用；摆动悬臂;转换功能;粘性阻尼梁模型;

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3. Quantitative characterisation of damage mechanisms in ancient ceramics by quantitative X-ray powder diffraction, polarisation microscopy, confocal laser scanning microscopy and non-contact mode atomic force microscopy [J] . Emami S.M.A., Volkmar J., Trettin R. Surface Engineering . 2008 ,第2期

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4. Damping Mechanisms in Dynamic Mode Atomic Force Microscopy Applications [C] . Makan Fardad, Mihailo R. Jovanovic, Murti V. Salapaka American Control Conference . 2009

机译：动态模式原子力显微镜应用中的阻尼机制
5. A communications system perspective for dynamic mode atomic force microscopy, with applications to high-density storage and nanoimaging. [D] . Kumar, Naveen. 2010

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6. Pulse-response measurement of frequency-resolved water dynamics on a hydrophilic surface using a Q-damped atomic force microscopy cantilever [O] . Masami Kageshima 2012

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7. Pulse-response measurement of frequency-resolved water dynamics on a hydrophilic surface using a Q-damped atomic force microscopy cantilever [O] . Masami Kageshima 2012

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Damping mechanisms in dynamic mode atomic force microscopy applications

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