Optical resonances in tubular microcavities with subwavelength wall thicknesses

Tianrong Zhan; Chun Xu; Fangyuan Zhao; Zhiqiang Xiong; Xinhua Hu; Gaoshan Huang; Yongfeng Mei; Jian Zi

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Optical resonances in tubular microcavities with subwavelength wall thicknesses

机译：具有亚波长壁厚的管状微腔中的光学共振

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Based on the Mie scattering theory, we study optical resonances with whispering gallery modes (WGMs) in tubular microcavities. Rigorous formulas are present to obtain resonant wavelengths and Q factors for the WGM resonances. It is found that the Q factors of microtubes can be dramatically increased by increasing the dielectric constants in tube walls. For common SiO/SiO_2 based microtubes, Q factors can be improved by one order when the microtubes are coated with thin high-index HfO_2 layers (n=1.95, thickness = 10 nm). The results could be useful for designing better optical devices based on tubular microcavities.

机译：基于Mie散射理论，我们研究了管状微腔中耳语回廊模式（WGM）的光学共振。存在严格的公式来获得WGM共振的共振波长和Q因子。发现通过增加管壁的介电常数可以显着增加微管的Q因子。对于普通的基于SiO / SiO_2的微管，当在微管上涂覆薄的高折射率HfO_2层（n = 1.95，厚度= 10 nm）时，Q因子可以提高一个数量级。该结果对于基于管状微腔设计更好的光学设备可能有用。

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来源
《Applied Physics Letters》 |2011年第21期|p.211104.1-211104.3|共3页
作者
Tianrong Zhan; Chun Xu; Fangyuan Zhao; Zhiqiang Xiong; Xinhua Hu; Gaoshan Huang; Yongfeng Mei; Jian Zi;
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作者单位

Department of Physics and Key Laboratory of Micro andNano Photonic Structures (Ministry of Education), Fudan University, Shanghai 200433, China;

Department of Materials Science and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, China;

Department of Materials Science and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, China;

Department of Materials Science and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, China;

Department of Materials Science and Laboratory of Advanced Materials, Fudan University, Shanghai 200433, China;

Department of Materials Science, Fudan University, Shanghai 200433, China;

Department of Materials Science, Fudan University, Shanghai 200433, China;

Key Laboratory of Surface Physics, Fudan University, Shanghai 200433, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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专利

1. Erratum: 'Optical resonances in tubular microcavities with subwavelength wall thicknesses' [Appl. Phys. Lett. 99, 211104 (2011)] [J] . Tianrong Zhan, Chun Xu, Fangyuan Zhao, Applied Physics Letters . 2011,第24期

机译：勘误：“具有亚波长壁厚的管状微腔中的光学共振”物理来吧99，211104（2011）]
2. Rolled-up optical microcavities with subwavelength wall thicknesses for enhanced liquid sensing applications [J] . Huang G., Qui?ones V.A.B., Ding F., ACS nano . 2010,第6期

机译：具有亚波长壁厚的卷起式光学微腔，可增强液体感应应用
3. Temperature-dependent optical resonance in a thin-walled tubular oxide microcavity [J] . Yangfu Fang, Xianyun Lin, Shiwei Tang, 自然科学进展（英文版） . 2017,第004期

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4. Optical resonances from InAs quantum dots embedded in rolled-up tubular microcavity [C] . Zhaoer Chai, Qi Wang, Xiankun Wang, Conference on Lasers and Electro-Optics Pacific Rim . 2017

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5. Optical resonances of two-dimensional microcavities with circular and non-circular shapes. [D] . Poon, Andrew Wing On. 2001

机译：具有圆形和非圆形形状的二维微腔的光学共振。
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7. Temperature-dependent optical resonance in a thin-walled tubular oxide microcavity [O] . Yangfu Fang, Xianyun Lin, Shiwei Tang, 2017

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Optical resonances in tubular microcavities with subwavelength wall thicknesses

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