Resonance scattering by a rotating cylinder

Applied Optics and Photonics China Pub Date : 2023-12-18 DOI:10.1117/12.3007429
Zhuoyuan Shi, Huan Tang, Yuan Zhang, Renxian Li, Bing Wei, I. Minin, O. Minin, Bing Yan
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Abstract

The resonance scattering caused by the interaction between a dielectric cylinder rotating at a steady angular velocity and a plane wave are studied using the method of separation of variables and the multipole expansion method. In addition, the effect of resonance on curved photonic nanojets (PNJ) is also analyzed. During the study, the critical value of resonance scattering is found by changing the dimensionless and dimensional parameters of the medium cylinder. It is found that the rotation of particles can create and destroy resonance phenomena. The resonance scattering of rotating dielectric cylinders produced by plane waves provides a new direction for the study of PNJ and whispering gallery mode (WGM), as well as the design and application of ultra-sensitive sensors and resonators
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旋转圆柱体的共振散射
利用变量分离法和多极扩展法研究了以稳定角速度旋转的介质圆柱体与平面波之间相互作用引起的共振散射。此外,还分析了共振对曲面光子纳米射流(PNJ)的影响。在研究过程中,通过改变介质圆柱体的无量纲和有量纲参数,找到了共振散射的临界值。研究发现,粒子的旋转可以产生和破坏共振现象。平面波对旋转介质圆柱体产生的共振散射为研究 PNJ 和耳语廊模式 (WGM),以及超灵敏传感器和谐振器的设计和应用提供了新的方向
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Applied Optics and Photonics China
Applied Optics and Photonics China
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