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中南大学学报(自然科学版)

Journal of Central South University

第48卷    第8期    总第276期    2017年8月

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文章编号:1672-7207(2017)08-2010-06
阵列波导光栅与光纤的对准耦合研究
李继攀,郑煜,王丽军,吕文,段吉安

(中南大学 高性能复杂制造国家重点实验室,湖南 长沙,410083)

摘 要: 以2种不同截面尺寸的阵列波导光栅芯片(截面长×宽为6.0 μm×6.0 μm和4.5 μm×4.5 μm)与单模光纤的对准耦合为对象,基于光束传播法建立对准耦合仿真模型,分析输入端/输出端几何位置偏差对耦合损耗的影响规律,并进行实验验证,以指导AWG器件的耦合封装。研究结果表明:长×宽为6.0 μm×6.0 μm的截面光通道输入端横向位错、轴向间距和角度偏移的0.15 dB容差分别为0.77 μm,19 μm和0.57°,输出端横向位错、轴向间距和角度偏移的0.15 dB容差分别为0.77 μm,18.00 μm和0.49°;4.5 μm×4.5 μm截面光通道输入端横向位错、轴向间距和角度偏移的0.15 dB容差分别为0.69 μm,18.00 μm和0.57°,输出端横向位错、轴向间距和角度偏移的0.15 dB容差分别为0.68 μm,19.00 μm和0.71°;在耦合过程中,首先应考虑横向偏移误差和角度偏移,最后应考虑轴向间距误差。

 

关键词: 阵列波导光栅;单模光纤;对准耦合;插入损耗;几何位置偏差

Study on coupling of arrayed waveguide grating and fiber
LI Jipan, ZHENG Yu, WANG Lijun, Lü Wen, DUAN Jian

State Key Laboratory of High Performance Complex Manufacturing, Central South University, Changsha 410083, China

Abstract:The aligning and coupling of single-mode fiber(SMF) and arrayed waveguide grating(AWG) chip in two different cross-sectional dimensions (6.0 μm×6.0 μm and 4.5 μm×4.5 μm) were studied. Based on the beam propagation method(BPM),simulation model of the aligning and coupling was built to analyze the influence of alignment deviations of the inputs/outputs on the coupling loss. And the simulation was verified by experiment to guide the AWG component package. The results show that for the optical channel of 6.0 μm×6.0 μm cross section area, when the coupling loss is 0.15 dB in the inputs, the optical tolerances of the transverse dislocation, the axial gap and the angle deviation are 0.77 μm, 19 μm and 0.57°, respectively, however, in the outputs they are respectively 0.77 μm, 18.00 μm and 0.49?. For the optical channel of 4.5 μm×4.5 μm cross section area, when the coupling loss is 0.15 dB in inputs, the optical tolerances of the transverse dislocation, the axial gap and the angle deviation are 0.69 μm, 18.00 μm and 0.57?,respectively, however, in the outputs, they are respectively 0.68 μm, 19.00 μm and 0.71° in the coupling process, the transverse deviation and the angle deviation should be firstly considered, and finally the axial gap.

 

Key words: arrayed waveguide grating; single-mode fiber; aligning and coupling; insertion loss; alignment deviation

中南大学学报(自然科学版)
  ISSN 1672-7207
CN 43-1426/N
ZDXZAC
中南大学学报(英文版)
  ISSN 2095-2899
CN 43-1516/TB
JCSTFT
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