From Fabrication to Characterization of 3D Organic Microresonators: A Complementary Alliance of Microfluidics and Optics

Advances in Optical Technologies Pub Date : 2012-11-08 DOI:10.1155/2012/767836

D. Pluchon, N. Huby, A. Moreac, P. Panizza, B. Bêche

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引用次数: 3

Abstract

This paper introduces a preview of targeted current research on organic optofluidic materials and devices devoted to 3D photonics microresonators (MRs). First, such an approach takes advantage from a significant know-how on optical simulations of 3D spherical MRs by complementary and coupled ways based on electromagnetism and quantum mechanics principle. Such simulations have allowed to preset the quantization of whispering gallery modes (WGMs) and to define a new formulation of optical caustics in global 3D MRs cavities. Leaning from these simulations, an interdisciplinary approach has been achieved by combining microfluidics techniques and thin layer processes that allowed with flow rates control the realization of 3D droplets MRs of several tens of micrometers in radii. Finally, free-space optical characterizations have been performed on such 3D polymeric MRs by judicious protocols based, respectively, on a modified Raman spectroscopy laser excitation and an adequate direct beam waist optical coupling. Spectral analysis on such 3D MRs of various sizes confirms the excitation of the expected WGMs revealing free spectral range (FSR) and caustics values close to the analytical ones.

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从制造到表征三维有机微谐振器:微流体和光学的互补联盟

本文介绍了有机光流体材料和用于三维光子微谐振器(MRs)的器件的研究现状。首先，这种方法利用了基于电磁学和量子力学原理的互补和耦合方式在三维球形MRs光学模拟方面的重要专有技术。这样的模拟已经允许预设耳语廊模式(WGMs)的量化，并在全局3D MRs腔中定义光学焦散的新公式。从这些模拟中，通过将微流体技术和薄层工艺相结合，实现了一种跨学科的方法，该方法允许在流速控制下实现半径为几十微米的3D液滴MRs。最后，利用改进的拉曼光谱激光激发和适当的直接束腰光耦合，对这种三维聚合物MRs进行了自由空间光学表征。对不同尺寸的三维MRs进行光谱分析，证实了预期wgm的激发，自由光谱范围(FSR)和焦散值与分析值接近。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Advances in Optical Technologies

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