基于低响应时间和高对比度光子晶体的全光非或异或逻辑门

020 1st International Conference on Communications, Control Systems and Signal Processing (CCSSP) Pub Date : 2020-05-01 DOI:10.1109/CCSSP49278.2020.9151640

Bouaouina Mohamed salah, Lebbal Mohamed Redha, Bouchemat Touraya, Bouchemat Mohamed

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引用次数: 4

摘要

在本研究中，我们的研究旨在通过仿真优化一种具有更高性能的全光逻辑门的新设计。这种新结构本质上是基于t形和十字形波导的干涉效应，由三个带PhCs的纳米谐振器实现。优化了NOT/XOR(LG1)和OR/XOR(LG2)的物理参数，使其运行在1550nm的通信波长上。在实际应用中，它必须具有快速的响应时间和改进的特性:高传输功率，两个逻辑门的最大对比度等于62.38 dB。此外，本设计提出了一个超紧凑的尺寸为72.7 $\mu m^{2}$，以方便其集成到全光集成电信电路中。

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 NOT/OR/XOR Logic Gates Based on Photonic Crystal with Low Response Time and High Contrast Ratio

In this research, our study aims at optimizing a new design of all-optical logic gates with higher performances by simulation. This new structure is essentially based on the interference effect using a T-shaped and cross-shaped waveguide which is realized by three nano-resonators with PhCs. The physical parameters of NOT/XOR(LG1) and OR/XOR(LG2) are optimized to operate the telecommunication wavelength equal to 1550nm. For practical use, it must have a fast response time and its characteristics are improved: high transmission power, maximally contrast ratio of the two logic gates equal to 62.38 dB. In addition, this design presented an ultra-compact size of 72.7 $\mu m^{2}$ to facilitate its integration into all-optical integrated telecommunication circuits.

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020 1st International Conference on Communications, Control Systems and Signal Processing (CCSSP)

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