• 主题
高级搜索  >
历史搜索 清空历史
首页> 外文会议>Conference on Integrated Optics >Design, fabrication, and integration of micro/nano-scale optical waveguide arrays and devices for optical printed circuit board (O-PCB) and VLSI micro/nano-photonic application
【24h】

Design, fabrication, and integration of micro/nano-scale optical waveguide arrays and devices for optical printed circuit board (O-PCB) and VLSI micro/nano-photonic application

机译:微/纳米光波导阵列和用于光印刷电路板(O-PCB)和VLSI微/纳光应用的装置的设计,制造和集成

获取原文
页面导航
  • 摘要
  • 著录项
  • 相似文献
  • 相关主题

摘要

We present a review of our work on the micro/nano-scale design, fabrication and integration of optical waveguide arrays and devices for applications in a newly-conceived optical module system that we call "optical printed circuit board" (O-PCBs) and VLSI micro/nano-photonic integrated circuit. The O-PCBs consist of planar circuits and arrays of waveguides and devices of various dimensions and characteristics to perform the functions of transporting, switching, routing and distributing optical signals on flat modular boards. The VLSI micro/nano-photonic integrated circuits perform similar functions on a chip scale. O-PCBs consist of planar circuits and arrays of waveguides and devices of various dimensions and characteristics to perform the functions of transporting, switching, routing and distributing optical signals on flat modular boards. Fundamentally it contrasts with the electrical printed circuit board (E-PCB), which is designed to perform transporting, processing and distributing electrical signals. We have assembled O-PCBs using optical waveguide arrays and circuits made of polymer materials and have examined information handling performances when they are interconnected with the micro-laser arrays, detector arrays and optoelectronic devices. For VLSI nano-scale photonic inte-gration and applications, we designed power splitters and waveguide filters using photonic band-gap crystals and plasmonic waveguide structures. We discuss scientific issues and technological issues concerning the minia-turization, interconnection, and integration of micro/nano-photonic devices and circuits and discuss potential utilities of O-PCBs and VLSI micro/nano-photonics for applications in computers, telecommunication systems, transportation systems, and bio-sensing microsystems.
机译:我们介绍了我们对光学波导阵列和设备的微/纳米尺度设计,制造和集成的工作的审查,用于在新构思的光学模块系统中进行“光印刷电路板”(O-PCB)和VLSI微/纳光集成电路。 O-PCB包括平面电路和波导阵列和各种尺寸的装置和特性,以执行在扁平模块板上运输,切换,路由和分配光信号的功能。 VLSI微/纳光集成电路在芯片尺度上执行类似的功能。 O-PCB由平面电路和波导阵列和各种尺寸的装置和特性,以执行在扁平模块板上运输,切换,路由和分配光信号的功能。从根本上讲,它与电印刷电路板(E-PCB)形成对比,其旨在执行运输,加工和分配电信号。我们使用光波导阵列和由聚合物材料制成的电路组装了O-PCB,并且当它们与微激光阵列,检测器阵列和光电器件相互连接时检查了信息处理性能。对于VLSI纳米尺度光子Inte-Gration和应用,我们使用光子带间隙晶体和等离子体波导结构设计了电源分离器和波导滤波器。我们讨论了有关微/纳米光子器件和电路的微型突发,互连和集成的科学问题和技术问题,并讨论了O-PCB和VLSI微/纳米光子的潜在公用事业,用于计算机,电信系统,运输中的应用系统和生物传感微系统。

著录项

相似文献

  • 外文文献
  • 中文文献
  • 专利
获取原文

客服邮箱:kefu@zhangqiaokeyan.com

京公网安备:11010802029741号 ICP备案号:京ICP备15016152号-6 六维联合信息科技 (北京) 有限公司©版权所有

  • 客服微信

  • 服务号