Experiment and Calculations on the Defect-Induced Broadening in One-Dimensional Photonic Bandgaps

POSTER

Abstract

Impurity bands are generated by the coupling of defect modes in one-dimensional photonic crystals, which move the bandgap edges towards the shorter and the longer wavelengths. Combining one structure with impurity band and another without it, a greatly broadened photonic bandgap is created when the two structures are well designed. The samples are fabricated by the electron-beam evaporation, which are composed of SiO$_2$ and TiO$_2$. A good agreement between the experimental and the theoretical results is obtained. The further calculations, based on the 4$\times$4 transfer-matrix method, strongly reveal the validity of this approach, so-called the defect-induced broadening. More importantly, the widened omni-directional photonic bandgaps are also realized by this means.

Authors

  • Y.H. Lu

    • Quantum Photonic Science Research Center and BK21 Program Division of Advanced Research and Education in Physics, Hanyang University

  • M.D. Huang

    • Quantum Photonic Science Research Center and BK21 Program Division of Advanced Research and Education in Physics, Hanyang University

  • S.Y. Park

    • Quantum Photonic Science Research Center and BK21 Program Division of Advanced Research and Education in Physics, Hanyang University
    • Hanyang Univ.

  • P.J. Kim

    • Quantum Photonic Science Research Center and BK21 Program Division of Advanced Research and Education in Physics, Hanyang University

  • Y. P. Lee

    • q-Psi and Dept. of Physics, Hanyang Univ., Seoul, Korea
    • Quantum Photonic Science Research Center and BK21 Program Division of Advanced Research and Education in Physics, Hanyang University
    • Quantum Photonic Science Research Center, Hanyang University
    • Hanyang Univ.
    • Quantum Photonic Science Research Center and BK21 Program Division of Advanced Research and Education in Physics, Hanyang University, Seoul, Korea
    • Quantum Photonic Science Research Center and Department of Physics, Hanyang University, Seoul, 133-791 Korea

  • Joo Yull Rhee

    • BK21 Physics Research Division and Institute of Basic Science, Sungkyunkwan University
    • BK21 Physics Research Division and Institute of Basic Science, Sungkyunkwan University, Suwon, Korea

  • C.K. Hwangbo

    • Department of Physics, Inha University