基于2x2多模干涉耦合器的全光半加法器

Journal of Science and Technology: Issue on Information and Communications Technology Pub Date : 2018-09-30 DOI:10.31130/JST.2018.71

Dao Duy Tu, Linh Duc Tam Ho, Dung Truong Cao, H.T. Nguyen

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引用次数: 0

摘要

本文采用三维光束传播法(3D-BPM)和有效指数法(EIM)对基于2x2 (MMI)多模干涉耦合器的全光逻辑门进行了理论设计和仿真，分析和评价了器件的性能。该装置用于在MMI的输出端口将输入光信号的相位信息转换为幅度。利用这种机制，器件可以作为逻辑半加法器运行。仿真结果表明，该光学半加法器的插入损耗和消光比在ON到OFF的逻辑电平分别小于0.7 dB和大于40 dB。此外，100nm的宽带宽也是该器件的优势。因此，它可以应用于下一代光网络和光子集成电路中的所有光信号处理。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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All-Optical Half Adder Based on a 2x2 Multimode Interference Coupler

In this paper, an all-optical logic gate based on 2x2 (MMI) multimode interference coupler is theoretically designed and simulated using three-dimensional beam propagation method (3D-BPM) and effective index method (EIM) to analyze and evaluate the performance of the device. The proposed device is used to convert phase information of input optical signals to amplitude at the output ports of MMI. With this mechanism, the device can operates as a logical half adder. Simulation results show that the optical half adder archives with insertion loss and extinction ratio from ON to OFF logic–level below 0.7 dB and over 40 dB, respectively. Furthermore, wide bandwidth of 100nm is also an advantage of this devices. Therefore, it can be applied to all optical signal processing in next generation optical networks as well as in photonics integrated circuits.

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Journal of Science and Technology: Issue on Information and Communications Technology

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