The present paper focuses on one-dimensional silicon grating to realise efficient interconnects at three optical communication windows. The mechanism of the present research relies on the diffraction, reflection, absorption and dispersion (RAD) analysis. Further dispersion depends on the polarisation, waveguide and material properties. The reflection loss is analysed through the photonic bandgap analysis where absorption and dispersion are discussed through analytical treatment. Finally, the output result confirms that the proposed silicon-based grating structure has an efficiency of 98.10%, 99.58% and 99.78% at the signal of first (850 nm), second (1310 nm) and third (1550 nm) communication windows respectively.

中文翻译：

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通过 RAD 机制使用布拉格光栅操纵 3 窗口：一种用于通信应用的高效光子结构

本文重点研究一维硅光栅，以实现三个光通信窗口的高效互连。本研究的机制依赖于衍射、反射、吸收和色散 (RAD) 分析。进一步的色散取决于极化、波导和材料特性。反射损耗通过光子带隙分析进行分析，其中通过分析处理讨论吸收和色散。最后，输出结果证实所提出的硅基光栅结构在第一（850 nm）、第二（1310 nm）和第三（1550 nm）通信窗口的信号上分别具有98.10%、99.58%和99.78%的效率.