Sub-Surface Silicon Optical Bus using Self-Collimation in Three-Dimensional Photonic Crystals

机译：在三维光子晶体中使用自准直的次表面硅光总线

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In this paper, we propose the design and fabrication of buried silicon optical interconnect technology, which we refer to as the sub-surface silicon optical bus (S3B). The proposed approach relies on engineering the dispersion properties of embedded silicon three-dimensional photonic crystals to create sub-micron routing channels and control light propagation. Further, we present a method for the fabrication of buried three-dimensional (3D) photonic-crystal structures using conventional planar silicon micromachining. The method utilizes a single planar etch mask coupled with time-multiplexed, sidewall-passivating, deep anisotropic reactive-ion etching, to create an array of spherical voids with three-dimensional symmetry. Preliminary results are presented that demonstrate the feasibility of realizing chip-scale optical interconnects using our proposed approach.

机译：在本文中，我们提出了掩埋硅光互连技术的设计和制造，我们将其称为次表面硅光总线（S3B）。所提出的方法依赖于对嵌入式硅三维光子晶体的色散特性进行工程设计，以创建亚微米级路由通道并控制光传播。此外，我们提出了一种使用传统的平面硅微加工技术来制造埋藏式三维（3D）光子晶体结构的方法。该方法利用单个平面蚀刻掩模与时分复用，侧壁钝化，深各向异性反应离子蚀刻相结合，以创建具有三维对称性的球形空隙阵列。初步结果显示了使用我们提出的方法实现芯片级光学互连的可行性。

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《8th World Multi-Conference on Systemics, Cybernetics and Informatics(SCI 2004) vol.12: Applications of Cybernetics and Informatics in Optics, Signals, Science and Engineering》|2004年|P.209-214|共6页
会议地点 OrlandoFL(US)
作者
Sriram Venkataraman; Garrett Schneider; Janusz Murakowski; Shouyan Shi; Dennis W. Prather;
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作者单位

Nano-Photonics Technology Center, Department of Electrical and Computer Engineering University of Delaware, Newark, DE 19711, USA;

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会议组织
原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;
关键词
optical bus; silicon; photonic crystals; self-collimation; micromachining and nano-photonics;

机译：光学总线;硅;光子晶体;自准直;微加工和纳米光子学;

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1. A 1 × 4 optical splitter for TE modes based on a silicon photonic crystal self-collimation ring resonator [J] . Zhong Y., Chen X., Qiang Z., Journal of Modern Optics . 2013,第15a16期

机译：基于硅光子晶体自准直环形谐振器的TE模式1×4分光器
2. The 1 × 4 Optical Splitters Based on Silicon Photonic Crystal Self-Collimation Ring Resonators [J] . ZHUANG Dong-Xia, CHEN Xi-Yao, LI Jun-Jun, 中国物理快报：英文版 . 2012,第012期

机译：基于硅光子晶体自准直环形谐振器的1×4分光器
3. Photonic drop splitters based on self-collimation ring resonators in a silicon photonic crystal [J] . Junjun Li, Xiyao Chen, Zexuan Qiang, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2011,第24期

机译：基于硅光子晶体中自准直环谐振器的光子分束器
4. Sub-Surface Silicon Optical Bus using Self-Collimation in Three-Dimensional Photonic Crystals [C] . Sriram Venkataraman, Garrett Schneider, Janusz Murakowski, 8th World Multi-Conference on Systemics, Cybernetics and Informatics(SCI 2004) vol.12: Applications of Cybernetics and Informatics in Optics, Signals, Science and Engineering . 2004

机译：在三维光子晶体中使用自准直的次表面硅光总线
5. Fabrication and optical properties of three-dimensional zinc oxide photonic crystals. [D] . Scharrer, Michael. 2007

机译：三维氧化锌光子晶体的制备和光学性质。
6. A New Cell-Selective Three-Dimensional Microincubator Based on Silicon Photonic Crystals [O] . Francesca Carpignano, Gloria Silva, Salvatore Surdo, -1

机译：新的小区选择三维微型培育基于硅光子晶体
7. Millimeter-scale and large-angle self-collimation in a photonic crystal composed of silicon nanorods [O] . Li, Hao, Wu, Aimin, Li, Wei, 2013

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8. Direct-Write Assembly of Three-Dimensional Photonic Crystals: Conversion of Polymer Scaffolds to Silicon Hollow-Woodpile Structures [R] . Gratson, G. M. , Garcia-Santamaria, F. , Lousse, V. , 2005

机译：三维光子晶体的直写组装：聚合物支架向硅空心木桩结构的转换

Sub-Surface Silicon Optical Bus using Self-Collimation in Three-Dimensional Photonic Crystals

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