Silicon Hybrid Plasmonic Waveguides and Passive Devices.

机译：硅混合等离子体波导管和无源器件。

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The field of plasmonics has offered the promise to combine electronics and photonics at the nanometer scale for ultrafast information processing speeds and compact integration of devices. Various plasmonic waveguide schemes were proposed with the potential to achieve switching functionalities and densely integrated circuits using optical signals instead of electrons. Among these, the hybrid plasmonic waveguide stands out thanks to two sought-out properties: long propagation lengths and strong modal confinement. In this work, hybrid plasmonic waveguides and passive devices were theoretically investigated and experimentally demonstrated on an integrated silicon platform. A thin SiO2 gap between a gold conductive layer and a silicon core provides subwavelength confinement of light inside the gap. A long propagation length of 40mum was experimentally measured. A system of taper coupler connects the plasmonic waveguide to conventional photonic waveguides at a high efficiency of 80%. Passive devices were also fabricated and characterized, including S-bends and Y-splitters.

机译：等离子体技术领域提供了将纳米级电子学和光子学结合在一起的承诺，以实现超快的信息处理速度和设备的紧凑集成。提出了各种等离激元波导方案，它们有潜力实现开关功能，并使用光信号代替电子来实现密集集成电路。在这些之中，混合等离子体激元波导由于两个寻找到的特性而脱颖而出：长的传播长度和强的模态约束。在这项工作中，在集成硅平台上对混合等离子体激元波导和无源器件进行了理论研究和实验证明。金导电层和硅芯之间的SiO2细缝隙在缝隙内部提供了亚波长的光限制。实验测量了40mum的长传播长度。锥形耦合器系统以80％的高效率将等离激元波导连接到常规光子波导。还制造和表征了无源器件，包括S形弯头和Y形分离器。

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作者
Wu, Marcelo.;
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University of Alberta (Canada).;

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授予单位 University of Alberta (Canada).;
学科 Engineering Electronics and Electrical.;Physics Fluid and Plasma.;Nanotechnology.
学位 M.Sc.
年度 2011
页码 92 p.
总页数 92
原文格式 PDF
正文语种 eng
中图分类老年病学;
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1. An efficient directional coupling from dielectric waveguide to hybrid long-range plasmonic waveguide on a silicon platform [J] . Lin Chen, Xun Li, Dingshan Gao Applied physics . 2013,第1期

机译：在硅平台上从介电波导到混合远程等离子波导的有效定向耦合
2. Compact and efficient coupler to interface hybrid dielectric-loaded plasmonic waveguide with silicon photonic slab waveguide [J] . Rakesh G. Mote, Hong-Son Chu, Ping Bai, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2012,第18期

机译：紧凑而高效的耦合器，可将负载介电的等离激元波导与硅光子平板波导相连接
3. Broadband all-silicon hybrid plasmonic TM-pass polarizer using bend waveguides [J] . Ghulam Saber, David V. Plant, Nicolás Abadía AIP Advances . 2021,第4期

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4. Bragg gratings in ultra-thin silicon waveguides and hybrid plasmonic waveguides [C] . Linjie Zhou, Zhi Zou, Sheng Liu, 2016 Progress In Electromagnetic Research Symposium . 2016

机译：超薄硅波导和混合等离子体波导中的布拉格光栅
5. Metal-insulator-metal plasmonic waveguides and devices. [D] . Chen, Jing. 2009

机译：金属-绝缘体-金属等离激元波导和器件。
6. Polarization rotation and coupling between silicon waveguide and hybrid plasmonic waveguide [O] . Sangsik Kim, Minghao Qi -1

机译：硅波导与混合等离子体波导的极化旋转及耦合
7. Broadband all-silicon hybrid plasmonic TM-pass polarizer using bend waveguides [O] . Md Ghulam Saber, David V. Plant, Nicolás Abadía 2021

机译：宽带全硅混合等离子体TM-PASS偏振器使用弯曲波导
8. Hybrid Finite Element/Waveguide Mode Analysis of Passive RF Devices. [R] . McGrath, D. T. 1993

机译：无源射频器件的混合有限元/波导模式分析。

Silicon Hybrid Plasmonic Waveguides and Passive Devices.

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