中文摘要：

光码分多址系统中,光编解码器是影响系统性能的关键因素之一.自相关峰值旁瓣比（P/W）、自互相关峰值比（P/C）是衡量编解码器性能的两个重要指标.以硅基SOI微环谐振腔为载体,提出了一种串联三环阵列的二维相干OCDMA编解码器模型.详细研究了耦合系数、损耗系数、阵列间距以及通道间隔对微环谐振腔编解码器性能的影响.结果表明,半径为50μm的微环,环与直波导间耦合系数在0.6—0.7之间,环与环间耦合系数在0.1—0.2之间,损耗系数〈2 d B/cm,阵列间距大于3 mm,通道间隔在25—36 GHz间时,编解码器能够获得良好的性能.

英文摘要：

Optical en/decoder is one of the most crucial factors affecting the performance of the optical code division multiple access（OCDMA）. The autocorrelation peak to maximum wing ratio（P/W） and cross-correlation ratio（P/C） are two important parameters to quantitatively evaluate the performance of the en/decoder.Based on the SOI parallel-cascaded coupled micro-ring reflector, a mathematical model of two-dimensional coherent optical en/decoder is established. Influences of the structure parameters including the coupling coefficient, the loss factor, the array distance, and the channel spacing on P/W and P/C ratios are discussed in detail. Results show that for the micro-ring with a radius of 50 μm,when the ring-bus and ring-ring coupling coefficients are 0.6—0.7 and 0.1—0.2, respectively, the propagation loss is lower than 2 d B/cm, the array distance is greater than 3 mm, and when the channel spacing is given between 25—36 GHz,the proposed structure can have an optimal performance of en/decoding.