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Ideal Oscillation of a Hydrogenated Deformable Rotor in a Gigahertz Rotation–Translation Nanoconverter at Low Temperatures

机译:千兆赫旋转平移纳米转换器中低温下氢化可变形转子的理想振荡

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摘要

It was discovered that large-amplitude axial oscillation can occur on a rotor with an internally hydrogenated deformable part (HDP) in a rotation–translation nanoconverter. The dynamic outputs of the system were investigated using molecular dynamics simulations. When an input rotational frequency (100 GHz > > 20 GHz) was applied at one end of the rotor, the HDP deformed under the centrifugal and van der Waals forces, which simultaneously led to the axial translation of the other end of the rotor. Except at too high an input rotational frequency (e.g., >100 GHz), which led to eccentric rotation and even collapse of the system, the present system could generate a periodic axial oscillation with an amplitude above 0.5 nm at a temperature below 50 K. In other ranges of temperature and amplitude, the oscillation dampened quickly due to the drastic thermal vibrations of the atoms. Furthermore, the effects of the hydrogenation scheme and the length of HDP on the equilibrium position, amplitude, and frequency of oscillation were investigated. The conclusions can be applied to the design of an ideal nano-oscillator based on the present rotation–translation converter model.
机译:发现在旋转平移纳米转换器中带有内部氢化可变形部分(HDP)的转子上会发生大振幅轴向振荡。使用分子动力学模拟研究了系统的动态输出。当在转子的一端施加输入旋转频率(100 GHz 20 GHz)时,HDP在离心力和范德华力的作用下变形,同时导致转子另一端的轴向平移。除了在太高的输入旋转频率(例如,> 100 GHz)下导致系统偏心旋转甚至使系统崩溃之外,本系统可以在温度低于50 K时产生振幅大于0.5 nm的周期性轴向振荡。在其他温度和振幅范围内,由于原子剧烈的热振动,振荡迅速衰减。此外,研究了氢化方案和HDP的长度对平衡位置,振幅和振荡频率的影响。该结论可用于基于当前旋转和平移转换器模型的理想纳米振荡器的设计。

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