Fabrication and Modeling of Truncated Oblate and Prolate Microresonators

机译：扁圆形扁圆谐振器的制造与建模

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We have demonstrated softening and micromorphing techniques of amorphous/crystalline materials for fabricating high quality oblate or prolate microresonators. Firstly, "soften-and-compress" technique has been developed for fabricating bottle microresonators from standard fibers or capillaries using splicers. Also, a "soften-and-squash" technique has been demonstrated for fabricating microdiscus resonators by squashing microspheres between glassy-carbon plates. Finally, a softening process was developed for turning crystalline microstructures into predominantly oblate microresonators. We have also developed an efficient transfer-matrix method for calculating resonant frequencies and field distributions in truncated oblate and prolate structures and applied it to analyze resonant characteristics of the new microresonators.

机译：我们已经证明了非晶/晶体材料的软化和微变形技术，可用于制造高质量的扁形或扁形微谐振器。首先，已经开发出“软化和压缩”技术，以使用接续器从标准纤维或毛细管制造瓶子微谐振器。而且，已经证明了通过压缩玻璃碳板之间的微球来制造微盘谐振器的“软压扁”技术。最后，开发了一种软化工艺，用于将晶体微结构转变为主要为扁圆形的微谐振器。我们还开发了一种有效的传递矩阵方法，用于计算截顶扁圆和扁长结构的谐振频率和场分布，并将其应用于分析新型微谐振器的谐振特性。

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来源
《Laser resonators, microresonators, and beam control XV》|2013年|860015.1-860015.15|共15页
会议地点 San Francisco CA(US)
作者
Michalis N. Zervas;
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作者单位

Optoelectronics Research Centre, University of Southampton, Southampton SO17 1BJ, U.K.;

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原文格式 PDF
正文语种 eng
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关键词
Microresonators; microresonator modeling;

机译：微谐振器；微谐振器建模;

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Fabrication and Modeling of Truncated Oblate and Prolate Microresonators

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