非接触式原子力显微镜中普遍存在的能量耗散机制。

Ubiquitous mechanisms of energy dissipation in noncontact atomic force microscopy.

作者信息

Ghasemi S Alireza, Goedecker Stefan, Baratoff Alexis, Lenosky Thomas, Meyer Ernst, Hug Hans J

机构信息

Department of Physics and National Center for Research in Nanoscale Science, University of Basel, Basel, Switzerland.

出版信息

Phys Rev Lett. 2008 Jun 13;100(23):236106. doi: 10.1103/PhysRevLett.100.236106.

DOI:10.1103/PhysRevLett.100.236106

PMID:18643523

Abstract

Atomistic simulations considering larger tip structures than hitherto assumed reveal novel dissipation mechanisms in noncontact atomic force microscopy. The potential energy surfaces of realistic silicon tips exhibit many energetically close local minima that correspond to different structures. Most of them easily deform, thus causing dissipation arising from hysteresis in force versus distance characteristics. Furthermore, saddle points which connect local minima can suddenly switch to connect different minima. Configurations driven into metastability by the tip motion can thus suddenly access lower energy structures when thermal activation becomes allowed within the time required to detect the resulting average dissipation.

摘要

与以往假设相比，考虑更大尖端结构的原子模拟揭示了非接触原子力显微镜中新型的耗散机制。实际硅尖端的势能面呈现出许多能量相近的局部极小值，它们对应于不同的结构。其中大多数很容易变形，从而导致力与距离特性中的滞后现象产生耗散。此外，连接局部极小值的鞍点可能会突然切换以连接不同的极小值。因此，当在检测由此产生的平均耗散所需的时间内允许热激活时，由尖端运动驱动进入亚稳态的构型可能会突然进入能量更低的结构。

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非接触式原子力显微镜中普遍存在的能量耗散机制。

Ubiquitous mechanisms of energy dissipation in noncontact atomic force microscopy.

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