The large differences between the refractive index of Si and SiO2 in the SOI composite (silicon on insulator) and, as a result, its high ability to trap lasers, have led to the construction of valuable optical equipment in recent years. In this paper, with a new idea, by adding two reciprocating golden walls and a transverse air gap, the SOI structure is developed in such a way that equipment made with the new method, such as XOR and NOT gates and power-phase comparators, have a dreamy speed and a super small size. This structure is only compatible with linear polarization so that the axis of polarization, which is the direction of the electric field, is parallel to the gold plates. In the multifunctional structure presented in this paper, if the inputs are uniform plane waves, the output will be uniform plane wave with high accuracy and that the inputs can be phase or power while the output is only power. Simulation in this paper is done using finite-difference-time-domain method.

中文翻译：

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硅布线技术中金气隙复合异或非门和电源相位比较器的设计

SOI 复合材料（绝缘体上的硅）中 Si 和 SiO2 的折射率之间存在巨大差异，因此，其捕获激光的能力很强，因此近年来构建了有价值的光学设备。本文以一种新的思路，通过增加两个往复运动的金墙和一个横向气隙，开发了 SOI 结构，使得用新方法制造的设备，如异或门和非门以及功率相位比较器，拥有梦幻般的速度和超小的体积。这种结构仅与线性极化兼容，因此作为电场方向的极化轴平行于金板。在本文提出的多功能结构中，如果输入是均匀平面波，输出将是高精度的均匀平面波，输入可以是相位或功率，而输出只是功率。本文中的仿真是使用有限差分时域方法完成的。