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    Journals >Laser & Optoelectronics Progress >Volume 48 >Issue 4 >Page 42401 > Article
    • Laser & Optoelectronics Progress
    • Vol. 48, Issue 4, 42401 (2011)
    Optical Properties Research on Surface Plasmons Excited by Metallic Nanostructure Waveguides
    Gao Xingyu1、* and Ning Lihua2
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
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    DOI: 10.3788/lop48.042401 Cite this Article Set citation alerts
    Gao Xingyu, Ning Lihua. Optical Properties Research on Surface Plasmons Excited by Metallic Nanostructure Waveguides[J]. Laser & Optoelectronics Progress, 2011, 48(4): 42401 Copy Citation Text show less
    References

    [1] William L. Barnes, Alain Dereux, Thomas W. Ebbesen. Surface plasmon subwavelength optics[J]. Nature, 2003, 424(6950): 824~830

    [2] Peter J. Reece. Plasmonics: Finer optical tweezers[J]. Nature Photon., 2008, 2(6): 333~334

    [3] Peter Zijlstra, James W. M. Chon, Min Gu. Five-dimensional optical recording mediated by surface plasmons in gold nanorods[J]. Nature, 2009, 459(7245): 410~413

    [4] Lü Qiang, Huang Dexiu, Yuan Xiuhua et al.. Sensitivity of surface plasmon resonance sensor for different wavelengths[J]. Chinese J. Lasers, 2007, 34(7): 972~976

    [5] Yuanfong Chau, Dinping Tsai, Guangwei Hu et al.. Subwavelength optical imaging throught a silver nanorod[J]. Opt. Eng., 2007, 46(3): 039701

    [6] Li Ying, Zhong Jingang, Zhang Yonglin. Fingerprint image aequisition based on surface plasmon resonance imaging[J]. Chinese J. Lasers, 2006, 33(8): 1143~1147

    [7] Zhao Chengqiang, Xu Wendong, Hong Xiaogang et al.. Probe inducing surface plasmon resonance nanolithographic system[J]. Acta Optica Sinica, 2009, 29(2): 473~477

    [8] Yuan-Fong Chao, Min Wei Chen, Din Ping Tsai. Three-dimensional analysis of surface plasmon resonance models on a gold nanorod[J]. Appl. Opt., 2009, 48(3): 617~622

    [9] Zhongyue Zhang, Yiping Zhao. Optical properties of U-shaped Ag nanostructures[J]. J. Phys: Condens. Matter, 2008, 20(34): 345223

    [10] Xingyu Gao, Xiaosong Gan. Modulation of evanescent focus by localized surface plasmons waveguide[J]. Opt. Express, 2009, 17(25): 22726~22734

    [11] A. Taflove, S. C. Hagness. Computational Electrodynamics: The Finite-Difference Time-Domain Method[M]. 3rd ed, Norwood, MA: Artech House, 2005. 354~355

    [12] David F. Kelley, Raymond J. Luebbers. Piecewise linear recursive convolution for dispersive media using FDTD[J]. IEEE Trans. Antennas Propag., 1996, 44(6): 792~797

    [13] Jun Shibayama, Taichi Takeuchi, Naoki Goto et al.. Numerical investigation of a kretschmann-type surface plasmon resonance waveguide sensor[J]. J. Lightwave Technol., 2007, 25(9): 2605~2611

    [14] James W. M. Chon, Min Gu. Scanning total internal reflection fluorescence microscopy under one-photon and two-photon excitation: imaging formation[J]. Appl. Opt., 2004, 43(5): 1063~1071

    [15] Gao Xingyu, Liu Shugui. Study on focusing of radially polarized beam by high numerical aperture objective[J]. Laser & Optoelectron. Progress, 2010, 47(10): 101801

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    Gao Xingyu, Ning Lihua. Optical Properties Research on Surface Plasmons Excited by Metallic Nanostructure Waveguides[J]. Laser & Optoelectronics Progress, 2011, 48(4): 42401
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