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新型1×N多模干涉分束器的三维设计与模拟 被引量:1

3-D Design and Simulation of a New Type of 1×N MMI Power Splitter
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摘要 相比于传统的1×N对称型多模干涉(Mult-Mode Interference ,MMI)分束器设计,提出了一种新型埋入式弱限制光波导分束器件.它的干涉区及输入输出波导采用倒锥形式,器件尺寸减小,且不均匀性与附加损耗也减小.以1×4的对称型MMI分束器为例,当只对干涉区采用倒锥形结构后,在TE偏振中心波长为1 .55μm时,器件长度减小了500μm,均匀性增加了0.131 dB,而附加损耗仅增加了0 .02 dB,波长响应较传统设计增加了40 nm.在此基础上,又在输入输出臂上也各增加倒锥形结构后,相比于传统设计附加损耗减小了0 .02 dB,均匀性增加了0 .139 dB,器件长度减小了500μm.改进后的器件具有优越的容差性.器件采用掺氟型聚合物材料进行优化设计,通过在合理范围内偏离输出波导位置,使输出光强达到最大值. A new type of buried polymer 1×N multimode interference (MMI) power splitter is presented. Compared to the traditional design of MMI, interference region of the MMI power splitter takes the shape of reverse taper. The dimension of the splitter is reduced, the uniformity is also enhanced, and the excess loss and crosstalk is retained in a good level. Taking a 1 × 4 symmetric MMI splitter as a example, the length of the splitter is diminished in 500 μm than the traditional one, the uniform is increased in 0. 131 dB,the excess loss is decreased in 0.02 dB, and wavelength response is increased in 40μm. The MMI also own super tolerance. The polymer splitter by moving output away from the central position is optimized, and the maximal output power is in maximal value.
作者 周骏 赵峰 高永锋 郑慧茹 贾振红
机构地区 宁波大学理学院 江苏大学机械学院光信息科学与技术系 新疆大学信息科学与工程学院
出处 《光子学报》 EI CAS CSCD 北大核心 2007年第11期2037-2040,共4页 Acta Photonica Sinica
基金 国家自然科学基金(10574058) 联合国教科文组织第三世界科学院基金(01-137RG/PHYS/AS) 江苏大学科研基金(04JDG041)资助
关键词 MMI分束器 有限差分束传播法 波导损耗 MMI power splitter Finite difference-beam propagation method(FD-BPM) Waveguide loss
分类号 TN201 [电子电信—物理电子学]
作者简介 Tel:0511—88797612Email:ejzhou@yahoo.com.cn ZHOU Jun Technology University, in studying devices. received the B. Sc. degree in in 1982, and the M. S. degree China, in 1990 and 1996, respec the nonlinear optical properties physics from Anhui University of Science and Ph. D. in optics from Shanghai Jiaotong tively. His postgraduate research was involved of polymer material and polymeric waveguide
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共引文献8

同被引文献11

  • 1佟西周,周骏,郑慧茹,高永峰,陈明阳.新型低损耗1×3光分路器的优化设计[J].光电子.激光,2007,18(8):927-930. 被引量:2
  • 2WANG Qian, HE Sai-ling, WANG Li-rong. A low-loss Y-branch with a multimode waveguide transition section[J]. IEEE Photonics Technology Letters, 2002, 14(8): 1124-1126.
  • 3CHANG Wen-ching, LIN Han-bin. A novel low-loss wide- angle Y-branch with a diamond-like microprism[J]. IEEE Photonics Technology Letters, 1999, 11(6): 683-685.
  • 4HSU Jui-ming, LEE Ching-ting. Design of microprism-type symmetric Y-junction waveguides with the full phase compensation method[J]. Applied Optics, 1999, 38(15): 3234-3238.
  • 5LIN Han-bin. A very low-loss wide-angle Y-branch with a composite diamond-like microprism[J]. IEEE Journal of Quantum Electronics, 2001, 37(2): 231-236.
  • 6CHUNG K K, CHAN H P, CHU P L. A 1×4 polarization and wavelength independent optical power splitter based on a novel wide-angle low-loss Y-junction[J]. Optics Communications, 2006, 267(2): 367-372.
  • 7HUANG Zhe, CHAN Hau-ping, UDDIN M A. Low-loss ultra compact optical power splitter using a multistep structure[J]. Applied Optics, 2010, 49(10): 1900-1908.
  • 8KLEKAMP A, KERSTEN P, REHMG W. An improved single-mode Y-branch design for cascaded 1:2 splitters[J]. Journal of Lightwave Technolog, 1996, 14(12): 2684-2686.
  • 9杨永佳,周自刚,孙光春,王强.带有矩形过渡区的非对称Y分支光波导[J].光学与光电技术,2010,8(2):70-72. 被引量:2
  • 10杨建义,王明华.光波导弯曲的结构优化[J].光电子.激光,1999,10(4):305-309. 被引量:11

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光子学报
2007年 第11期

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