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通过对弯曲阵列波导的优化设计 ,讨论了阵列波导光栅 (AWG)作波分复用器传输多频线性调制信号时的色散特性 ,得到其传输功率与波长的关系。分析表明 :对于优化弯曲波导 ,脉冲展宽波长Δλ≤ 0 .5nm ,插入损耗为 6± 1dB 相似文献
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阵列波导光栅是正在迅速发展的密集波分复用网络关键器件之一,是目前研究开发与应用的热点。本文综述了阵列波导光栅复用/解复用器的性能及新技术。 相似文献
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MMI阵列波导光栅复用/解复用器的研制 总被引:1,自引:1,他引:1
详细分析了基于自镜像效应的 MMI DMUX器件的基本工作原理 ,在此基础上 ,在 SOI材料上完成了对 8信道 MMI DMU X的具体设计 .该器件的输入、输出单模波导采用 Soref的大截面脊形光波导理论进行优化设计 ,最后获得了当输入、输出单模波导宽度为 5 μm,SIE多模波导宽度和长度分别为 72 μm和 6 313.4μm时 ,该器件对8信道波长的隔离度均在 35 d B以上 ,且理论传输损耗 <0 .18d B. 相似文献
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基于阵列波导光栅的波分复用器件 总被引:2,自引:0,他引:2
阵列波导光栅波分复用 /解复用器有 N个输入端口和 N个输出端口 ,能同时传输 N2 路不同的光信号 ,除具有波分复用和解复用功能外 ,能灵活地与其它光器件组成多波长激光器、光路分插复用器、光路交叉连接器、波长路由器等波分复用器件 ,在光通信网络中有着广泛的应用前景。 相似文献
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阵列波导光栅(AWG)复用/解复用器的优化设计计算是集成光波导器件设计计算中的难点.文章应用AWG光信号传输特性和光栅方程,提出了AWG组成部分输入/输出波导、阵列波导、平板波导相关参数及阵列波导结构优化设计的数值计算方法,给出了具体的计算数值;该计算方法解决了AWG复用器优化设计计算的问题,为进一步建立AWG的计算机辅助设计提供了基础. 相似文献
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A 16 channel arrayed waveguide grating demultiplexer with 200 GHz channel spacing based on Si nanowire waveguides is designed.The transmission spectra response simulated by transmission function method shows that the device has channel spacing of 1.6 nm and crosstalk of 31 dB.The device is fabricated by 193 nm deep UV lithography in silicon-on-substrate.The demultiplexing characteristics are observed with crosstalk of 5-8 dB,central channel’s insertion loss of 2.2 dB,free spectral range of 24.7 nm and average channel spacing of 1.475 nm.The cause of the spectral distortion is analyzed specifically. 相似文献
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Si纳米线阵列波导光栅制备 总被引:1,自引:1,他引:0
采用绝缘层上Si(SOI)材料设计制备了3×5纳米线阵列波导光栅(AWG),器件大小为110μm×100μm。利用简单传输法模拟了器件的传输谱,并采用二维时域有限差分(FDTD)模拟中心通道输出光场的稳态分布,模拟结果表明,器件的通道间隔为11 nm,通道间的串扰为18 dB。通过电子束曝光(EBL)和感应耦合等离子(ICP)刻蚀制备了所设计的器件,光输出谱测试分析表明,器件中心通道的片上损耗为9 dB,通道间隔为8.36~10.40 nm,中心输出通道的串扰为6 dB。在误差允许范围内,设计和测试的结果一致。 相似文献
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Qin Zhengkun Yu Yue Song Ji Zhang Huiping Wang Guofeng Sun Yongxin Wang Yuhai 《半导体学报》2013,34(9):094011-4
Based on transmission theory, a 17×17 polymer arrayed waveguide grating(AWG) multiplexer parameter optimization is performed, and the influence of the fabrication results on the transmission characteristics are analyzed. In this paper, we mainly discuss three of the main errors in the fabrication of polymer AWG devices. One is n1, which is caused by the tuning of the core refractive index n1, the second is b, which results from the rotating-coating of the core thickness b, and the other is the non-ideal core cross-section, which is caused by steam redissolution. The effects of the above fabrication errors on the transmission characteristics of the AWG device are investigated, and compensation techniques are proposed. By comparing the theoretical simulation and experimental results, the shift in the transmission spectrum is reduced by 0.028 nm, the 3 dB bandwidth is increased by about 0.036 nm, the insertion loss is reduced by about 3 dB for the central channel and 4.5 dB for the edge channels, and the crosstalk is reduced by 1.5 dB. 相似文献
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对硅(Si)基波导光栅耦合器的设计与耦合性能进 行了研究。采用本征模展开法对光栅耦合器进行设计与 优化,通过实验测量了光栅的耦合性能,并对均匀光栅、自聚焦光栅和反射光栅等3种光栅 耦合器的耦合 性能进行了比较,耦合效率分别达到了达到47.86、56. 36和48.98%,自聚焦光栅可以有效改善光纤到 光纤的传输效果,耦合效率提高了8.5%。通过实验测量了基于耦合光 栅技术的Si基条形波导和槽型波导的 传输损耗,结果显示,条形波导和槽型波导的传输损耗分别为2.34d B/cm和6.31dB/mm。 相似文献
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