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Propagation of surface plasmon polaritons through gradient index and periodic structures

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Języki publikacji
EN
Abstrakty
EN
We study propagation of surface electromagnetic waves along a metallic surface covered by various layered dielectric structures. We show that strong radiative losses, typical for scattering of a surface wave, can be considerably suppressed when a single dielectric step is substituted by gradient index or periodic layered structure.
Twórcy
autor
autor
  • Department of Physics, FEI STU, 3 Ilkovičova Str., 812 19 Bratislava, Slovak Republic, tomas.vary@stuba.sk
Bibliografia
  • [1] E. N. Economou: Surface plasmons in thin films. Phys. Rev. 182, 539, 1968.
  • [2] A. V. Zayats, I. I. Smolyaninov and A. A. Maradudin: Nano-optics of surface plasmon polaritons. Phys. Rep. 408, 131, 2005.
  • [3] S. A. Maier: Plasmonics: Fundamentals and Applications. Springer Science, 2007.
  • [4] A. Hohenau, A. Drezet, M. Weissenbacher, F. R. Aussenegg and J. R. Krenn: Effects of damping on surface-plasmon pulse propagation and refraction. Phys. Rev. B78, 155405, 2008.
  • [5] J. Lahm: Surface-wave reflection at an interface discontinuity. J. Appl. Phys. 66, 3437, 1989.
  • [6] G. I. Stegeman, A. A. Maradudin and T. S. Rahman: Refraction of a surface polariton by an interface. Phys. Rev. B23, 2376, 1981.
  • [7] G. I. Stegeman, N. E. Glass, A. A. Maradudin, T. P. Shen and R. F. Wallis: Fresnel relations for surface polaritons at interface. Opt. Lett. 8, 626, 1983.
  • [8] G. I. Stegeman, A. A. Maradudin, T. P. Shen and R. F. Wallis: Refraction of a surface polariton by a semi-infinite film of metal. Phys. Rev. B29, 6530, 1983.
  • [9] R. F. Oulton, D. F. P. Pile, Y. Liu and X. Zhang: Scattering of surface plasmon polaritons at abrupt surface interfaces: Implications for nanoscale cavities. Phys. Rev. B76, 035408, 2007.
  • [10] T. Váry and P. Markoš: Propagation of surface plasmons through planar interface, in Metamaterials IV, Proc. SPIE 7353, 404, 2009.
  • [11] T. Váry and P. Markoš: Scattering of the surface plasmon polaritons on the interface between two dielectrics. Physica B, 14, 2982-2985, 2010.
  • [12] J. Elser and V. A. Podolskiy: Scattering-free plasmonic optics with anisotropic metamaterials. Phys. Rev. Lett. 100, 066402, 2008.
  • [13] A. B. Shvartsburg, V. Kuzmiak and G. Petite: Optics of subwavelength gradient nanofilms. Phys. Rep. 452, 33-88, 2007.
  • [14] P. Markoš and C.M. Soukoulis, Wave Propagation: From Electrons to Photonic Crystals and Left-Handed Materials, Princeton Univ. Press, 2008.
  • [15] V. V. Schevchenko: Continuous Transitions in Open Waveguides. Golem, Boulder, CO, 1971.
  • [16] J. B. Pendry, A. MacKinnon and P. J. Roberts: Universality classes and fluctuations in disordered systems. P. R. Soc. London A437, 67, 1992.
  • [17] P. Markoš: Numerical analysis of the Anderson localization. Acta Phys. Slovaca 56, 561, 2006.
  • [18] P. Yeh: Optical Waves in Layered Media. 2nd edition, Willey Series in Pure and Applied Optics, John Willey and Sons, NY, 2005.
  • [19] S. G. Johnson, J. D. Joannopoulos: Photonic Crystals: The Road from Theory to Practice. Kluwer Acad. Press, 2002.
  • [20] A. Karalis, E. Lidorikis, M. Ibanescu, J. D. Joannopoulos and M. Soljačić: Surface-plasmon-assisted guiding of broadband slow and subwavelength light in air. Phys. Rev. Lett. 95, 063901, 2005.
  • [21] A. Karalis, J. D. Joannopoulos and M. Soljačić: Plasmon-dielectric systems for high-order dispersionless slow or stopped subwavelength light. Phys. Rev. Lett. 103, 043906, 2009.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWAD-0018-0055
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