Polymeric planar waveguide devices for photonic network applications

被引:6
|
作者
Yao, HH [1 ]
Keil, N [1 ]
Zawadzki, C [1 ]
Bauer, J [1 ]
Bauer, M [1 ]
Dreyer, C [1 ]
机构
[1] Heinrich Hertz Inst Nachrichtentech Berlin GmbH, D-10587 Berlin, Germany
来源
DESIGN, MANUFACTURING, AND TESTING OF PLANAR OPTICAL WAVEGUIDE DEVICES | 2001年 / 4439卷
关键词
optical waveguide components; optical switches; optical arrayed-waveguide-grating multiplexer (AWG); dense wavelength division multiplexing (DWDM); optical add/drop multiplexer (OADM); hybrid integration;
D O I
10.1117/12.447631
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
Polymeric optical planar waveguide devices such as optical switches, optical arrayed-waveguide grating (AWG) multiplexer/demultiplexer, optical add/drop multiplexer are promising for both of optical WDM networks and access network. For investigating such polymer devices, new polymeric waveguide materials were developed and different polymer integrated optical devices including interferometric-type optical switches, digital-optical switches (DOS), hybrid polymer/silica vertical coupler switches (VCS), polymer AWG multiplexer and athermal all-polymer AWG multiplexer have been studied.
引用
收藏
页码:36 / 50
页数:3
相关论文
共 50 条
  • [1] Planar photonic crystal waveguide devices for integrated optics
    Krauss, TF
    PHYSICA STATUS SOLIDI A-APPLIED RESEARCH, 2003, 197 (03): : 688 - 702
  • [2] Planar Waveguide Devices for Communication and Sensing Applications
    Okamoto, Katsunari
    JOURNAL OF THE OPTICAL SOCIETY OF KOREA, 2010, 14 (04) : 290 - 297
  • [3] Recent Progress of Imprinted Polymer Photonic Waveguide Devices and Applications
    Han, Xiu-You
    Wu, Zhen-Lin
    Yang, Si-Cheng
    Shen, Fang-Fang
    Liang, Yu-Xin
    Wang, Ling-Hua
    Wang, Jin-Yan
    Ren, Jun
    Jia, Ling-Yun
    Zhang, Hua
    Bo, Shu-Hui
    Morthier, Geert
    Zhao, Ming-Shan
    POLYMERS, 2018, 10 (06)
  • [4] Integrated polymeric photonic devices for RF and phased array applications
    Fetterman, H
    Chang, D
    Steier, S
    Dalton, L
    Zhang, C
    Oh, M
    Erlig, H
    Tsap, B
    INTEGRATED PHOTONICS RESEARCH, TECHNICAL DIGEST, 2000, 45 : 146 - 147
  • [5] PHOTONIC TECHNOLOGIES AND DEVICES FOR MULTIWAVELENGTH NETWORK APPLICATIONS
    TESTA, F
    MERLI, S
    RANDONE, G
    ROTOLO, S
    VEZZONI, E
    INFORMACIJE MIDEM-JOURNAL OF MICROELECTRONICS ELECTRONIC COMPONENTS AND MATERIALS, 1995, 25 (01): : 3 - 10
  • [6] Photonic crystal planar waveguide devices exploiting the thermo-optic effect
    De La Rue, R
    Chong, H
    Camargo, E
    Ciminelli, C
    Armenise, M
    Photonic Materials, Devices, and Applications, Pts 1 and 2, 2005, 5840 : 1 - 15
  • [7] CAE for photonic waveguide devices
    Glingener, C
    Elbers, JP
    Voges, E
    AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS, 1997, 51 (01): : 20 - 28
  • [8] CAE for photonic waveguide devices
    Glingener, Christoph
    Elbers, Joerg-Peter
    Voges, Edgar
    AEU. Archiv fur Elektronik und Ubertragungstechnik, 1997, 51 (01): : 20 - 28
  • [9] Suspended photonic waveguide devices
    Stievater, Todd H.
    Pruessner, Marcel W.
    Rabinovich, William S.
    Park, Doewon
    Mahon, Rita
    Kozak, Dmitry A.
    Boos, J. Bradley
    Holmstrom, Scott A.
    Khurgin, Jacob B.
    APPLIED OPTICS, 2015, 54 (31) : F164 - F173
  • [10] Silicon Photonic Platform for Passive Waveguide Devices: Materials, Fabrication, and Applications
    Su, Yikai
    Zhang, Yong
    Qiu, Ciyuan
    Guo, Xuhan
    Sun, Lu
    ADVANCED MATERIALS TECHNOLOGIES, 2020, 5 (08)
12345