微透镜
材料科学
光子学
光纤
联轴节(管道)
硅
硅光子学
光电子学
纤维
复合材料
光学
镜头(地质)
物理
作者
Chien-Wei Huang,Kai‐Chieh Chang,Po-Lin Huang,Zhi Ting Ye,Chun-Nien Liu,Wood-Hi Cheng
标识
DOI:10.1109/lpt.2024.3524274
摘要
High coupling efficiency with passive alignment of cylindrical microlens fiber fabricated by photocurable resin with simple process to achieve desired lens structure is presented. Optimal lens dimensions of 4- $\mu $ m upper base, 9- $\mu $ m lower base, and 12- $\mu $ m height were determined by simulation software. Despite mode conversion losses, maximum coupling efficiency reached 71.2%. Experimental results closely matched simulations of 67.6% coupling efficiency. A $1.5~\mu $ m offset in the X-Y plane, defined within a Cartesian coordinate system, resulted in a measured 3-dB efficiency drop. Compared to microlens fiber with grinding processes, the microlens fibers offer improved efficiency and tolerance. The proposed microlens fibers with array setups could reduce alignment time and cost during packaging, suggesting applications in silicon light modules, optical radar, and biomedical measurements.
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