COMPOSITIONAL MAPPING IN DYNAMIC ATOMIC FORCE MICROSCOPY IN HIGH-Q VS. LOW-Q ENVIRONMENTS: EFFECTS OF CANTILEVER NONLINEAR DYNAMICS

机译：高Q VS中动态原子力显微镜中的成分映射。低Q环境：悬臂非线性动力学的影响

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The ability to simultaneously map variations in topography and composition (local stiffness, adhesion, charge, hydrophillic-ity/phobicity, viscoelasticity) of samples in ambient and liquid environments has made dynamic atomic force microscopy (dAFM) a powerful tool for nanoscale metrology. In ambient and vacuum environments, quality factors (Q-factors) of the fundamental resonance are typically large, and the contrast channels in dAFM are relatively well understood. In liquid environments, however, Q-factors are typically low due to cantilever interactions with the surrounding viscous liquid, which introduces a new class of nonlinear dynamics that is accompanied by new contrast channels, such as, higher harmonic amplitudes and phases. In particular, we find that the interpretation of the traditional contrast channels is quite different in low-Q environments compared to high-Q environments. We present a theoretical investigation of the contrast channels in dAFM in the context of frequency modulation and tapping mode dAFM with an emphasis on low-Q environments.

机译：同时绘制环境和液体环境中样品的形貌和组成变化（局部刚度，附着力，电荷，亲水性/疏水性，粘弹性）的能力使动态原子力显微镜（dAFM）成为纳米级计量学的强大工具。在环境和真空环境中，基本共振的质量因子（Q因子）通常较大，并且dAFM中的对比通道相对较容易理解。然而，在液体环境中，由于悬臂与周围粘性液体的相互作用，Q因子通常较低，这会引入一类新的非线性动力学，并伴随新的对比通道，例如更高的谐波幅度和相位。特别是，我们发现，与高Q环境相比，低Q环境中传统对比通道的解释有很大不同。我们提出了在频率调制和攻丝模式dAFM的背景下dAFM中对比通道的理论研究，重点是低Q环境。

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来源
《ASME international design engineering technical conferences and computers and information in engineering conference 2010》|2010年|p.525-531|共7页
会议地点 Montreal(CA);Montreal(CA);Montreal(CA);Montreal(CA);Montreal(CA);Montreal(CA)
作者
John Melcher; Arvind Raman;
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作者单位

Birck Nanotechnology Center Department of Mechanical EngineeringrnPurdue University West Lafayette, Indiana 47907;

rnBirck Nanotechnology Center Department of Mechanical EngineeringrnPurdue University West Lafayette, Indiana 47907;

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原文格式 PDF
正文语种 eng
中图分类工程设计;
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1. Microcantilever dynamics in liquid environment dynamic atomic force microscopy when using higher-order cantilever eigenmodes [J] . Kiracofe Daniel, Raman Arvind Journal of Applied Physics . 2010,第3期

机译：使用高阶悬臂本征模式时在液体环境中的微悬臂动力学动力学原子力显微镜
2. Microcantilever dynamics in liquid environment dynamic atomic force microscopy when using higher-order cantilever eigenmodes [J] . Daniel Kiracofe, Arvind Raman Journal of Applied Physics . 2010,第3期

机译：使用高阶悬臂本征模式时在液体环境中的微悬臂动力学动力学原子力显微镜
3. Analytical model of the nonlinear dynamics of cantilever tip-sample surface interactions for various acoustic atomic force microscopies [J] . John H. Cantrell, Sean A. Cantrell Physical review . 2008,第16期

机译：各种声原子力显微镜的悬臂尖端-样品表面相互作用非线性动力学分析模型
4. COMPOSITIONAL MAPPING IN DYNAMIC ATOMIC FORCE MICROSCOPY IN HIGH-Q VS. LOW-Q ENVIRONMENTS: EFFECTS OF CANTILEVER NONLINEAR DYNAMICS [C] . John Melcher, Arvind Raman International Design Engineering Technical Conferences . 2010

机译：高Q与动态原子力显微镜中的组成映射Low-Q环境：悬臂非线性动力学的影响
5. Reconstruction and Control of Tip Position and Dynamic Sensing of Interaction Force for Micro-Cantilever to Enable High Speed and High Resolution Dynamic Atomic Force Microscopy. [D] . Liu, Zhen. 2017

机译：微悬臂的尖端位置的重构和控制以及相互作用力的动态传感，以实现高速和高分辨率的动态原子力显微镜。
6. Coupled molecular and cantilever dynamics model for frequency-modulated atomic force microscopy [O] . Michael Klocke, Dietrich E Wolf 2016

机译：调频原子力显微镜的分子和悬臂耦合动力学模型
7. Analytical Model of the Nonlinear Dynamics of Cantilever Tip-Sample Surface Interactions for Various Acoustic-Atomic Force Microscopies [O] . Cantrell, John H., Jr., Cantrell, Sean A. 2008

机译：各种声原子力显微镜的悬臂式尖端-样品表面相互作用非线性动力学分析模型

COMPOSITIONAL MAPPING IN DYNAMIC ATOMIC FORCE MICROSCOPY IN HIGH-Q VS. LOW-Q ENVIRONMENTS: EFFECTS OF CANTILEVER NONLINEAR DYNAMICS

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