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    Journals >Frontiers of Optoelectronics >Volume 9 >Issue 2 >Page 151 > Article
    • Frontiers of Optoelectronics
    • Vol. 9, Issue 2, 151 (2016)
    Novel optoelectronic characteristics from manipulating general energy-bands by nanostructures
    Yidong HUANG*, Kaiyu CUI, Fang LIU, Xue FENG, and Wei ZHANG
    Author Affiliations
  • State Key Lab of Integrated Optoelectronics, Tsinghua National Laboratory for Information Science and Technology,Department of Electronic Engineering, Tsinghua University, Beijing 100084, China
    • show less
    DOI: 10.1007/s12200-016-0615-2 Cite this Article
    Yidong HUANG, Kaiyu CUI, Fang LIU, Xue FENG, Wei ZHANG. Novel optoelectronic characteristics from manipulating general energy-bands by nanostructures[J]. Frontiers of Optoelectronics, 2016, 9(2): 151 Copy Citation Text show less
    References

    [1] Cui K, Feng X, Huang Y, Zhao Q, Huang Z, Zhang W. Broadband switching functionality based on defect mode coupling in W2 photonic crystal waveguide. Applied Physics Letters, 2012, 101 (15): 151110

    [2] Huang Z, Cui K, Li Y, Feng X, Liu F, Zhang W, Huang Y. Strong optomechanical coupling in nanobeam cavities based on hetero optomechanical crystals. Scientific Reports, 2015, 5: 15964

    [3] Li Y, Liu F, Xiao L, Cui K, Feng X, Zhang W, Huang Y. Twosurface- plasmon-polariton-absorption based nanolithography. Applied Physics Letters, 2013, 102(6): 063113

    [4] Yablonovitch E. Inhabited spontaneous emission in solid-state physics and electronics. Physical Review Letters, 1987, 58(20): 2059–2062

    [5] John S. Strong localization of photos in certain disordered dielectric superlattices. Physical Review Letter, 1987, 58(23): 2486–2489

    [6] Cui K, Huang Y, Zhang, W, Peng J. Modified gain and mode characteristics in two-dimension photonic crystal waveguide with microcavity structure. Journal of Lightwave Technology, 2008, 26 (9-12 ): 1492–1497

    [7] Zhang C, Huang Y, Mao X, Cui K, Huang Y, Zhang W, Peng J. Slow light by two-dimensional photonic crystal waveguides. Chinese Physics Letters, 2009, 26(7): 074216

    [8] Cui K, Huang Y, Zhang G, Li Y, Tang X, Mao X, Zhao Q, Zhang W, Peng J. Temperature dependence of ministop band in double-slots photonic crystal waveguides. Applied Physics Letters, 2009, 95(19): 191901

    [9] Eichenfield M, Chan J, Camacho R M, Vahala K J, Painter O. Optomechanical crystals. Nature, 2009, 462(7269): 78–82

    [10] Huang Z, Cui K, Bai G, Li Y, Feng X, Liu F, Zhang W, Huang Y. Demonstration of hetero optomechanical crystal nanobeam cavities with high mechanical frequency. In: Photonic West. 2016, 9756–21

    [11] Raether H. Surface Plasmons. Berlin: Springer-Verlag, 1988

    [12] Zayats A V, Smolyaninov I I, Maradudin A A. Nano-optics of surface plasmon polaritons. Physics Reports, 2005, 408(3-4): 131– 314

    [13] Canham L T. Silicon quantum wire array fabrication by electrochemical and chemical dissolution of wafers. Applied Physics Letters, 1990, 57(10): 1046–1048

    [14] Hu X, Huang Y, Zhang W, Peng J. Dominating radiative recombination in a nanoporous silicon layer with a metal–rich Au (1 – α)-SiO2(α) cermet waveguide. Applied Physics Letters, 2006, 89:081112

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    Yidong HUANG, Kaiyu CUI, Fang LIU, Xue FENG, Wei ZHANG. Novel optoelectronic characteristics from manipulating general energy-bands by nanostructures[J]. Frontiers of Optoelectronics, 2016, 9(2): 151
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