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Design and Simulation Investigation of Si3N4 Photonics Circuits for Wideband On-Chip Optical Gas Sensing around 2 µm Optical Wavelength

机译：Si3N4光子电路对宽带片上光学气体感测的设计和仿真研究大约2μm光波长

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摘要

We theoretically explore the potential of Si3N4 on SiO2 waveguide platform toward a wideband spectroscopic detection around the optical wavelength of 2 μm. The design of Si3N4 on SiO2 waveguide architectures consisting of a Si3N4 slot waveguide for a wideband on-chip spectroscopic sensing around 2 μm, and a Si3N4 multi-mode interferometer (MMI)-based coupler for light coupling from classical strip waveguide into the identified Si3N4 slot waveguides over a wide spectral range are investigated. We found that a Si3N4 on SiO2 slot waveguide structure can be designed for using as optical interaction part over a spectral range of interest, and the MMI structure can be used to enable broadband optical coupling from a strip to the slot waveguide for wideband multi-gas on-chip spectroscopic sensing. Reasons for the operating spectral range of the system are discussed.

机译：理论上，我们探讨了Si3N4对SiO2波导平台的电位，朝向光学波长为2μm的宽带光谱检测。 Si3n4在Si3n4上由Si3n4槽波导组成的Si3n4槽架构，用于约2μm的宽带片上光谱感测，以及用于从经典条带波导的光耦合到识别的Si3n4中的Si3N4多模式干涉仪（MMI）的耦合器研究了在宽谱范围内的槽波导。我们发现Si3N4上的Si3N4在SiO2槽波导结构上可以设计用于在光谱范围内使用作为光学相互作用部分，并且MMI结构可用于使宽带光学耦合能够从带材到宽带多气体的槽波导。片上光谱传感。讨论了系统的操作光谱范围的原因。

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期刊名称 Sensors (Basel Switzerland)
作者
Natnicha Koompai; Papichaya Chaisakul; Pichet Limsuwan; Xavier Le Roux; Laurent Vivien; Delphine Marris-Morini;
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年(卷),期 2021(21),7
年度 2021
页码 2513
总页数 12
原文格式 PDF
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机译：SI;

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7. Design and Simulation Investigation of Si3N4 Photonics Circuits for Wideband On-Chip Optical Gas Sensing around 2 µm Optical Wavelength [O] . Natnicha Koompai, Papichaya Chaisakul, Pichet Limsuwan, 2021

机译：Si3N4光子电路对宽带片上光学气体感测的设计和仿真研究大约2μm光波长
8. Integration of Semiconductor Optical Amplifiers in Wavelength Division Multiplexing Photonic Integrated Circuits. Application of Selective Area Chemical Beam Epitaxy. [R] . Harmsma, P. J. 2000

机译：半导体光放大器在波分复用光子集成电路中的集成。选区化学束外延的应用。

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