用于DWDM系统的超低功耗全光调谐混合石墨烯超富硅氮化环谐振器加降滤波器

3区 物理与天体物理 Q1 Materials Science Progress in Optics Pub Date : 2022-08-31 DOI:10.3390/opt3030027
Filston Rukerandanga, S. Musyoki, E. Ataro
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引用次数: 0

摘要

本研究进行了一种超低功耗全光调谐非线性环形谐振器加降滤波器的设计与仿真。本研究的目的是研究一种具有温度弹性、极化不敏感和快速节能可调性的cmos兼容的光学滤光片非线性材料系统。利用光泵光激发器件材料体系中的高非线性克尔效应,实现了器件的全光可调性。采用了三维多物理场方法,结合了滤波器中的电磁和热结构效应。基于超富氮化硅环形谐振器的滤波器上的混合石墨烯实现了在1.55 nm范围内的超高调谐效率(TE模式为0.275 nm/mW, TM模式为0.253 nm/mW)和0.11 pm/K的热稳定性。这项工作通过提出(1)将低损耗、高折射率对比度和无双光子吸收的高克尔效应层与非热包层材料系统集成,以及(2)使用对极化不敏感的截面形状,对现有文献做出了贡献。此外,该调谐机制有助于在L波段较少占用的密集波分复用系统中实现全光片上可积滤波器。
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Ultra-Low Power All-Optically Tuned Hybrid Graphene Ultra Silicon-Rich Nitride Ring Resonator-Based Add-Drop Filter for DWDM Systems
This research work conducted a design and simulation of an ultra-low power all-optically tuned nonlinear ring resonator-based add-drop filter. The purpose of this study is to investigate a CMOS-compatible nonlinear material system for an optical filter with temperature resilience, polarization insensitivity, and fast and energy-efficient tunability. The all-optical tunability was achieved using an optical pump that photo-excites the high nonlinear Kerr effect in the device material system. A three-dimensional multiphysics approach was used, combining the electromagnetics and thermo-structural effects in the filter. Hybrid graphene on an ultra-rich silicon nitride ring resonator-based filter enabled the realization of an ultra-high tuning efficiency (0.275 nm/mW for TE mode and 0.253 nm/mW for TM mode) on a range of 1.55 nm and thermal stability of 0.11 pm/K. This work contributed to the existing literature by proposing (1) the integration of a high Kerr effect layer on a low loss, high index contrast, and two-photon absorption-free core material with an athermal cladding material system and (2) the use of a cross-section shape insensitive to polarization. Moreover, the tuning mechanism contributed to the realization of an all-optical on-chip integrable filter for Dense Wavelength Division Multiplexing systems in the less occupied L band.
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来源期刊
Progress in Optics
Progress in Optics 物理-光学
CiteScore
4.50
自引率
0.00%
发文量
8
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