Realization of programmable nanomechanical lattice with both nearest-neighboring and next-nearest-neighboring couplings

Shaochun Lin, Tian Tian, Pu Huang, Peiran Yin, Liang Zhang, Jiangfeng Du
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引用次数: 4

Abstract

The programmable artificial lattice, based on the controllability of coupling strengths and the scalability of multiple sites, is desperately desired in engineering metamaterials and exploring fundamental physics. In this work, we experimentally present a programmable lattice consisting of multiple paralleled nanomechanical resonators, whose internal interactions can be linearly manipulated by external voltages. Flexural modes of nearest-neighboring (NN) and next-nearest-neighboring (NNN) resonators are parametrically coupled through modulated electrostatic interactions. Particularly, in a wide range up to deep strong coupling regime, both the NN and NNN coupling strengths are precisely proportional to manipulation voltage. The realization of long-range coupling provides a promising prospect in constructing complex lattice structure, which is essential in investigating mechanical logic devices, topological physics and coherent phononic dynamics.
具有最近邻和次近邻耦合的可编程纳米机械晶格的实现
基于耦合强度的可控性和多位点的可扩展性的可编程人工晶格,是工程超材料和基础物理探索中迫切需要的。在这项工作中,我们通过实验提出了一个由多个并行纳米机械谐振器组成的可编程晶格,其内部相互作用可以由外部电压线性控制。最近邻谐振器(NN)和次近邻谐振器(NNN)的弯曲模通过调制静电相互作用进行参数耦合。特别是,在宽范围直至深强耦合区,神经网络和非神经网络的耦合强度与操作电压精确成正比。远距离耦合的实现为构建复杂晶格结构提供了广阔的前景,这是研究机械逻辑器件、拓扑物理和相干声子动力学所必需的。
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