On the nonlinear stochastic dynamics of an Atomic Force Microscope cantilever

ASME Letters in Dynamic Systems and Control Pub Date : 2023-10-03 DOI:10.1115/1.4063601
Aman K Singh, Subramanian Ramakrishnan
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Abstract

Abstract Atomic Force Microscopy (AFM) serves characterization and actuation in nanoscale applications. We study the stochastic dynamics of an AFM cantilever under tip-sample interactions represented by the Lennard–Jones and Morse potential energy functions. In both cases, we also study the contrasting dynamic effects of additive (external) and multiplicative (internal) noise. Moreover, for multiplicative noise, we study the two sub-cases arising from the Ito and Stratonovich interpretations of stochastic integrals. In each case, we also investigate stochastic stability of the system by tracing the time evolution of the maximal Lyapunov exponent. Additionally, we obtain stationary probability densities for the unforced dynamics using stochastic averaging.
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原子力显微镜悬臂梁的非线性随机动力学研究
原子力显微镜(AFM)服务于纳米级应用的表征和驱动。本文研究了用Lennard-Jones和Morse势能函数表示的尖端-样品相互作用下AFM悬臂梁的随机动力学。在这两种情况下,我们还研究了加性(外部)和乘性(内部)噪声的对比动态效应。此外,对于乘性噪声,我们研究了随机积分的Ito和Stratonovich解释引起的两种子情况。在每种情况下,我们还通过跟踪最大Lyapunov指数的时间演化来研究系统的随机稳定性。另外,我们用随机平均法得到了非强迫动力学的平稳概率密度。
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ASME Letters in Dynamic Systems and Control
ASME Letters in Dynamic Systems and Control
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