Observation of Locked Phase Dynamics and Enhanced Frequency Stability in Synchronized Micromechanical Oscillators

Deepak K. Agrawal; Jim Woodhouse; Ashwin A. Seshia

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Observation of Locked Phase Dynamics and Enhanced Frequency Stability in Synchronized Micromechanical Oscillators

机译：同步微机械振荡器的锁相动力学和增强的频率稳定性的观察

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Even though synchronization in autonomous systems has been observed for over three centuries, reports of systematic experimental studies on synchronized oscillators are limited. Here, we report on observations of internal synchronization in coupled silicon micromechanical oscillators associated with a reduction in the relative phase random walk mat is modulated by the magnitude of the reactive coupling force between the oscillators. Additionally, for the first time, a significant improvement in the frequency stability of synchronized micromechanical oscillators is reported. The concept presented here is scalable and could be suitably engineered to establish the basis for a new class of highly precise miniaturized clocks and frequency references.%084101.1-084101.5

机译：尽管已经观察了三个多世纪以来自治系统中的同步，但是关于同步振荡器的系统实验研究的报道仍然有限。在这里，我们报告耦合的硅微机械振荡器内部同步的观察结果，该同步与相对相位随机游走垫的减小有关，这是由振荡器之间无功耦合力的大小来调节的。另外，首次报道了同步微机械振荡器的频率稳定性的显着改善。这里介绍的概念是可扩展的，可以进行适当的工程设计，以为新型高精度微型时钟和频率基准奠定基础。％084101.1-084101.5

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来源
《Physical review letters》 |2013年第8期|147-151|共5页
作者
Deepak K. Agrawal; Jim Woodhouse; Ashwin A. Seshia;
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作者单位

Department of Engineering, University of Cambridge, Cambridge CB2 1PZ, United Kingdom;

Department of Engineering, University of Cambridge, Cambridge CB2 1PZ, United Kingdom;

Department of Engineering, University of Cambridge, Cambridge CB2 1PZ, United Kingdom;

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正文语种 eng
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synchronization; coupled oscillators; oscillators; pulse generators; and function generators; micro- and nano-electromechanical systems (memsems) and devices;

机译：同步耦合振荡器;振荡器脉冲发生器和函数发生器;微纳机电系统（mems / nems）和设备;

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机译：通过同步改善压阻式微机械振荡器的频率稳定性

Observation of Locked Phase Dynamics and Enhanced Frequency Stability in Synchronized Micromechanical Oscillators

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