Recent advances in all-optical half-subtractor and full-subtractor based on photonic crystal platforms

Faribrz Parandin, S. Olyaee, F. Heidari, M. Soroosh, Ali Farmani, H. Saghaei, Rouhollah Karimzadeh, M. Maleki, Asghar Askarian, Zahra Rahimi, Arefe Ehyaee
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Abstract

A half-subtractor is a digital circuit that subtracts two inputs and displays the result in two outputs. Photonic crystals (PhCs) are used in optical circuits, including encoders, multiplexers, adders, subtractors, timers, counters, etc. This paper reviews and compares some of the all-optical half-subtractors and full-subtractors based on PhCs reported to date. We study physical parameters, including the arrangement of dielectric rods, rod radius, lattice constant, structure area, background material, and resonator type and illustrate the structure with a small size is suitable for integration in a photonic chip. Another crucial factor is the optical power difference between the two logic states of 0 and 1. A large difference between these two values increases the contrast ratio and reduces the detection error in the output. Delay time as a key parameter specifies that the input signal will leave the desired output after a few femtoseconds. Linear structures have the lowest delay time, fall time, and rise time among compared structures. But on the other hand, non-linear structures have the highest amount of contrast ratio. In the recent papers, relatively favorable delay times are obtained, equal to 0.06, 0.1, and 0.85 ps, respectively. Also, the fall times are a small value and are equal to 0.05, 0.1, and 0.25 ps, respectively, and the rise times are equal to 0.1, 0.5, and 0.7 ps, respectively. Also, the contrast ratio values are high and acceptable which are equal to 25.88, 18.80, and 18.40, respectively.
基于光子晶体平台的全光半减法器和全减法器的最新进展
半减器是一种将两个输入相减并将结果显示在两个输出端的数字电路。光子晶体(PhCs)可用于光电路,包括编码器、多路复用器、加法器、减法器、定时器、计数器等。本文回顾并比较了迄今为止报道的一些基于光子晶体的全光半减法器和全减法器。我们研究了物理参数,包括介质棒的排列、棒半径、晶格常数、结构面积、背景材料和谐振器类型,并说明了小尺寸结构适合集成到光子芯片中。另一个关键因素是 0 和 1 两个逻辑状态之间的光功率差,这两个值之间的差越大,对比度就越高,输出的检测误差就越小。延迟时间作为一个关键参数,规定了输入信号将在几飞秒后离开所需的输出端。相比之下,线性结构的延迟时间、下降时间和上升时间最短。但另一方面,非线性结构的对比度最高。在最近的论文中,延迟时间相对较好,分别为 0.06、0.1 和 0.85 ps。此外,下降时间值较小,分别为 0.05、0.1 和 0.25 ps,上升时间分别为 0.1、0.5 和 0.7 ps。此外,对比度值也很高,分别为 25.88、18.80 和 18.40,可以接受。
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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