Optomechanical coupling behavior of multilayer nano-waveguides

IF 2.2 3区工程技术 Q2 MECHANICS

Archive of Applied Mechanics Pub Date : 2023-07-29 DOI:10.1007/s00419-023-02477-2

Y. Wang, K. F. Wang, B. L. Wang

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Abstract

The all-optical nano-switch has aroused considerable attention due to its fast switching and potential applications in silicon integrated photonics. The high power-consuming, however, limits its implementation, which can be avoided by mechanical Kerr effect. Multilayered structures could significantly enhance mechanical Kerr effect. In this paper, we propose a general method for analyzing optomechanical behavior of multilayer nano-waveguides. Moreover, we design three stacked ways for multilayer nano-waveguides: periodic stack, arithmetic stack, and geometric stack. An interesting result is that the optical gradient force and bending deflection will converge to a stable value if the stacked layer number is, respectively, larger than 26, 28, and 26, for the three stacked ways. This indicates that if the stacked layer number goes beyond the certain number, increasing the number of layers is useless for enhancing optical gradient forces and bending deflection. We further find that for arithmetic stack, the stable values of optical gradient forces and bending deflection are independent of common difference factor. The present method and results may offer a promising pathway for the design and optimization of multilayer all-optical nano-switches driven by optical gradient forces.Please check the edit made in the article title.Done.

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多层纳米波导的光机械耦合行为

全光纳米开关由于其快速的开关特性和在硅集成光子学中的潜在应用而引起了人们的广泛关注。然而，高功耗限制了它的实现，这可以通过机械克尔效应来避免。多层结构可以显著增强机械克尔效应。本文提出了一种分析多层纳米波导光力学行为的通用方法。此外，我们设计了三种多层纳米波导的堆叠方式：周期堆叠、算术堆叠和几何堆叠。一个有趣的结果是，对于三种堆叠方式，如果堆叠层数分别大于26、28和26，则光学梯度力和弯曲偏转将收敛到稳定值。这表明，如果堆叠层数超过一定数量，则增加层数对于增强光学梯度力和弯曲偏转是无用的。我们进一步发现，对于算术堆栈，光学梯度力和弯曲偏转的稳定值与公共差分因子无关。本方法和结果可能为光学梯度力驱动的多层全光纳米开关的设计和优化提供一条很有前途的途径。请检查文章标题中的编辑。完成。

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来源期刊

Archive of Applied Mechanics 物理-力学

CiteScore

4.40

自引率

10.70%

发文量

234

审稿时长

4-8 weeks

期刊介绍： Archive of Applied Mechanics serves as a platform to communicate original research of scholarly value in all branches of theoretical and applied mechanics, i.e., in solid and fluid mechanics, dynamics and vibrations. It focuses on continuum mechanics in general, structural mechanics, biomechanics, micro- and nano-mechanics as well as hydrodynamics. In particular, the following topics are emphasised: thermodynamics of materials, material modeling, multi-physics, mechanical properties of materials, homogenisation, phase transitions, fracture and damage mechanics, vibration, wave propagation experimental mechanics as well as machine learning techniques in the context of applied mechanics.