Design, fabrication, and characterization of thermoplastic microlenses for fiber-optic probe imaging

V. K. Shinoj; V. M. Murukeshan; S. B. Tor; N. H. Loh; S. W. Lye

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Design, fabrication, and characterization of thermoplastic microlenses for fiber-optic probe imaging

机译：用于光纤探针成像的热塑性微透镜的设计，制造和表征

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Microlens-ended fibers could find great usefulness in future biomedical applications, particularly in endoscopic imaging applications. In this context, this paper focuses on microlens-attached specialty optical fibers such as imaging fiber that can be used for probe imaging applications. Stand-alone self-aligned polymer microlenses have been fabricated by microcompression molding. The fabrication parameters have been optimized for different materials, such as poly(methyl methacrylate) (PMMA), polycarbonate (PC Lexan 123R), Zeonor 1060R (ZNR), and Topas COC. A comparison study of the focusing and spatial resolution of the fabricated lenses is performed prior to employing them for fiber-optic fluorescence imaging applications.

机译：在未来的生物医学应用中，特别是在内窥镜成像应用中，微透镜端纤维可能会发现巨大的实用性。在这种情况下，本文重点研究可用于探针成像应用的微透镜连接的特殊光纤，例如成像光纤。独立的自对准聚合物微透镜已经通过微压缩成型制造。已针对不同材料优化了制造参数，例如聚甲基丙烯酸甲酯（PMMA），聚碳酸酯（PC Lexan 123R），Zeonor 1060R（ZNR）和Topas COC。在将所制造的透镜用于光纤荧光成像应用之前，对所制造的透镜的聚焦和空间分辨率进行了比较研究。

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《Applied optics》 |2014年第6期|共6页
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V. K. Shinoj; V. M. Murukeshan; S. B. Tor; N. H. Loh; S. W. Lye;
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1. Design, fabrication, and characterization of thermoplastic microlenses for fiber-optic probe imaging [J] . V. K. Shinoj, V. M. Murukeshan, S. B. Tor, Applied optics . 2014,第6期

机译：用于光纤探针成像的热塑性微透镜的设计，制造和表征
2. Design and fabrication of aspherical microlenses used for a USB fiber-optic connector [J] . Tien Chuen-Lin, Lin Yan-Nan, Chen Yu-Chung, Indian Journal of Pure & Applied Physics . 2013,第02期

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3. Design, fabrication and characterization of a capacitive micromachined ultrasonic probe for medical imaging [J] . Caliano G., Carotenuto R., Cianci E., IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2005,第12期

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Design, fabrication, and characterization of thermoplastic microlenses for fiber-optic probe imaging

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