基于光子晶体的空腔及其在全光放大现象中的应用比较研究

IF 2.5 3区 物理与天体物理 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
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引用次数: 0

摘要

与前十年相比,光学技术在创新和研究方面出现了复苏,尤其是在光集成电路方面。同样,光子晶体(PC)也是这一目的的主要竞争者之一。因此,这项研究工作基于不同半径的 PC 腔及其位置(即 PC 晶格的起始位置和中间位置),对三维 PC 单元进行了不同的排列。我们研究了这些 PC 腔的影响,调查了共振波长的更高偏移、0.0061 微米左右的更窄线宽和 99.59 的品质因数,包括半径为 0.300 微米的 PC 腔,仅使用输入信号,即使用导模共振现象耦合到光学结构中。这些结构是利用开源 FDTD 平台计算得出的,采用了基于条纹模型的结构,利用周期边界条件来节省时间和计算资源,随后利用 PML 来实现有限模型。此外,根据 PC 腔的位置总结出的结构还用于全光放大设备的设计,执行一个控制信号,报告输入信号输出中 8% 的放大率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A comparative study of the photonic crystals-based cavities and usage in all-optical-amplification phenomenon

Optical technology has seen a revival from the previous decade, in terms of innovations and research, especially relating to optical integrated circuits. Similarly, Photonic Crystals (PCs) are one of the main contenders for the purpose. Therefore, this research work implicates different arrangements of the 3-Dimensional PC units based on the employment of a varying radius PC-cavity and its position i.e., at the beginning and within the middle of the PC-lattice. The effects of these PC-cavities are studied, investigating higher shifting in resonant wavelength, a narrower linewidth around 0.0061 µm and a quality factor of 99.59, comprising of a PC-cavity of radius 0.300 µm using input signal only i.e., coupled into the optical structure using the phenomenon of the Guided-mode-resonances (GMR). The structures are computed using an open-source FDTD platform, employing a stripe-model-based structure utilizing the Periodic Boundary Condition to save time and computational resources and later the PML for the realization of the Finite models. Moreover, the concluded structures based on the position of the PC-cavity, are demonstrated for the design of the all-optical-amplification device, executing a control signal reporting an 8 % of the amplification in the output of the input signal.

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来源期刊
CiteScore
5.00
自引率
3.70%
发文量
77
审稿时长
62 days
期刊介绍: This journal establishes a dedicated channel for physicists, material scientists, chemists, engineers and computer scientists who are interested in photonics and nanostructures, and especially in research related to photonic crystals, photonic band gaps and metamaterials. The Journal sheds light on the latest developments in this growing field of science that will see the emergence of faster telecommunications and ultimately computers that use light instead of electrons to connect components.
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