Physical dissipation mechanisms in non-contact atomic force microscopy

T Trevethan; L Kantorovich

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Physical dissipation mechanisms in non-contact atomic force microscopy

机译：非接触原子力显微镜中的物理耗散机制

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Using realistic molecular dynamics simulations on the MgO(001) surface we show that the friction coefficient and dissipation energies due to the stochastic friction force mechanism are much smaller than observed experimentally in close agreement with previous analytical models. Therefore, the method is generalized by including a single soft vibrational mode at the surface. Using methods of non-equilibrium statistical mechanics, we derive an equation of motion for the tip interacting with the soft mode. It is shown that this method enables the simultaneous description of both stochastic friction and adhesion.

机译：通过在MgO（001）表面上使用逼真的分子动力学模拟，我们发现，由于随机摩擦力机理而产生的摩擦系数和耗散能量要比实验观察到的小得多，与先前的分析模型非常吻合。因此，通过在表面包括单个软振动模式来概括该方法。使用非平衡统计力学方法，我们导出了与软模式相互作用的尖端运动方程。结果表明，该方法可以同时描述随机摩擦力和附着力。

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《Nanotechnology》 |2004年第2期|共5页
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T Trevethan; L Kantorovich;
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1. Physical dissipation mechanisms in non-contact atomic force microscopy [J] . T Trevethan, L Kantorovich Nanotechnology . 2004,第2期

机译：非接触原子力显微镜中的物理耗散机制
2. 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

机译：通过定量X射线粉末衍射，偏振显微镜，共聚焦激光扫描显微镜和非接触模式原子力显微镜对古代陶瓷中的损伤机理进行定量表征
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] . S. M. A. Emami, J. Volkmar, R. Trettin Surface Engineering . 2008,第2期

机译：通过定量X射线粉末衍射，偏振显微镜，共聚焦激光扫描显微镜和非接触模式原子力显微镜对古代陶瓷中的损伤机理进行定量表征
4. Quantitative Characterization of Damage Mechanisms in Ancient Ceramics by Quantitative X-ray Powder Diffraction (QXRD), Polarization Microscopy, Confocal Laser Scanning Microscopy (CLSM) and Non-contact Mode Atomic Force Microscopy (AFM) [C] . S. M. A. Emami, J. Volkmar, R. Trettin International Conference on Surface Modification Technologies . 2008

机译：定量X射线粉衍射（QXRD），偏振显微镜，共聚焦激光扫描显微镜（CLSM）和非接触模式原子力显微镜（AFM）的定量表征古陶瓷损伤机制
5. The mechanisms of contrast formation in non-contact atomic force microscopy of insulating surfaces [D] . Gal, Andrei Yu. 2005

机译：绝缘表面非接触原子力学中的对比形成机制
6. Uncertainties in forces extracted from non-contact atomic force microscopy measurements by fitting of long-range background forces [O] . Adam Sweetman, Andrew Stannard 2014

机译：通过拟合远距离背景力从非接触原子力显微镜测量中提取的力的不确定性
7. Distance dependence of force and dissipation in non-contact atomic force microscopy on Cu(100) and Al(111) [O] . Pfeiffer, O, Nony, L, Bennewitz, R P, 2005

机译：非接触原子力显微镜对Cu（100）和Al（111）的力和耗散的距离依赖性
8. Non-contact atomic-level interfacial force microscopy [R] . Houston, J. E. , Fleming, J. G. 1997

机译：非接触式原子级界面力显微镜

Physical dissipation mechanisms in non-contact atomic force microscopy

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