Surface plasmon subwavelength optics
Tóm tắt
Từ khóa
Tài liệu tham khảo
Burstein, E. in Polaritons (eds Burstein, E. & De Martini, F.) 1–4 (Pergamon, New York, 1974).
Hecht, B., Bielefeldt, H., Novotny, L., Inouye, Y. & Pohl, D. W. Local excitation, scattering, and interference of surface plasmons. Phys. Rev. Lett. 77, 1889–1892 (1996).
Kneipp, K. et al. Single molecule detection using surface-enhanced Raman scattering (SERS). Phys. Rev. Lett. 78, 1667–1670 (1997).
Nie, S. M. & Emery, S. R. Probing single molecules and single nanoparticles by surface- enhanced Raman scattering. Science 275, 1102–1106 (1997).
Homola, J., Yee, S. S. & Gauglitz, G. Surface plasmon resonance sensors: review. Sensors Actuat. B 54, 3–15 (1999).
Kneipp, K., Kneipp, H., Itzkan, I., Dasari, R. R. & Feld, M. S. Surface enhanced Raman scattering and biophysics. J. Phys. C 14, R597–R624 (2002).
Sambles, J. R., Bradbery, G. W. & Yang, F. Z. Optical-excitation of surface-plasmons – an introduction. Contemp. Phys. 32, 173–183 (1991).
Kretschmann, E. & Raether, H. Radiative decay of nonradiative surface plasmons excited by light. Z. Naturforsch. A 23, 2135–2136 (1968).
Otto, A. Exitation of nonradiative surface plasma waves in silver by the method of frustrated total reflection. Z. Phys. 216, 398 (1968).
Ditlbacher, H. et al. Fluorescence imaging of surface plasmon fields. Appl. Phys. Lett. 80, 404–406 (2002).
Ritchie, R. H., Arakawa, E. T., Cowan, J. J. & Hamm, R. N. Surface-plasmon resonance effect in grating diffraction. Phys. Rev. Lett. 21, 1530–1533 (1968).
Wood, R. W. On a remarkable case of uneven distribution of light in a diffraction grating spectrum. Phil. Mag. 4, 396 (1902).
Raether, H. Surface Plasmons (ed. Hohler, G.) (Springer, Berlin, 1988).
Moreland, J., Adams, A. & Hansma, P. K. Efficiency of light emission from surface plasmons. Phys. Rev. B 25, 2297–2300 (1982).
Worthing, P. T. & Barnes, W. L. Efficient coupling of surface plasmon polaritons to radiation using a bi-grating. Appl. Phys. Lett. 79, 3035–3037 (2001).
Ditlbacher, H., Krenn, J. R., Schider, G., Leitner, A. & Aussenegg, F. R. Two-dimensional optics with surface plasmon polaritons. Appl. Phys. Lett. 81, 1762–1764 (2002).
Cregan, R. F. et al. Single-mode photonic band gap guidance of light in air. Science 285, 1537–1539 (1999).
Kitson, S. C., Barnes, W. L. & Sambles, J. R. A full photonic band gap for surface modes in the visible. Phys. Rev. Lett. 77, 2670–2673 (1996).
Barnes, W. L., Preist, T. W., Kitson, S. C. & Sambles, J. R. Physical origin of photonic energy gaps in the propagation of surface plasmons on gratings. Phys. Rev. B 54, 6227–6244 (1996).
Barnes, W. L., Kitson, S. C., Preist, T. W. & Sambles, J. R. Photonic surfaces for surface plasmon polaritons. J. Opt. Soc. Am. A 14, 1654–1661 (1997).
Special issue: Optical Properties of Nanoparticles. Appl. Phys. B 73 (2001).
Haynes, C. L. & Van Duyne, R. P. Nanosphere lithography: A versatile nanofabrication tool for studies of size-dependent nanoparticle optics. J. Phys. Chem. B 105, 5599–5611 (2001).
Sonnichsen, C. et al. Spectroscopy of single metallic nanoparticles using total internal reflection microscopy. Appl. Phys. Lett. 77, 2949–2951 (2000).
Schultz, D. A. Plasmon resonant particles for biological detection. Curr. Opin. Biotechnol. 14, 13–22 (2003).
Oldenburg, S. J., Genick, C. C., Clark, K. A. & Schultz, D. A. Base pair mismatch recognition using plasmon resonant particle labels. Anal. Biochem. 309, 109–116 (2002).
Félidj, N. et al. Optimized surface-enhanced Raman scattering on gold nanoparticle arrays. Appl. Phys. Lett. 82, 3095–3097 (2003).
Levi, S. A. et al. Fluorescence of dyes adsorbed on highly organized, nanostructured gold surfaces. Chem.-a Eur. J. 8, 3808–3814 (2002).
Vargas-Baca, I. et al. Linear and nonlinear optical responses of a dye anchored to gold nanoparticles dispersed in liquid and polymeric matrixes. Can. J. Chem. 80, 1625–1633 (2002).
Rechberger, W. et al. Optical properties of two interacting gold nanoparticles. Opt. Commun. 220, 137–141 (2003).
Kottmann, J. P. & Martin, O. J. F. Retardation-induced plasmon resonances in coupled nanoparticles. Opt. Lett. 26, 1096–1098 (2001).
García-Vidal, F. J. & Pendry, J. B. Collective theory for surface enhanced Raman scattering. Phys. Rev. Lett. 77, 1163–1166 (1996).
Gresillon, S. et al. Experimental observation of localized optical excitations in random metal-dielectric films. Phys. Rev. Lett. 82, 4520–4523 (1999).
Weeber, J. C. et al. Observation of light confinement effects with a near-field optical microscope. Phys. Rev. Lett. 77, 5332–5335 (1996).
Devaux, E. et al. Local detection of the optical magnetic field in the near zone of dielectric samples. Phys. Rev. B 62, 10504–10514 (2000).
Silva, T. J. & Schultz, S. A scanning near-field optical microscope for the imaging of magnetic domains in reflection. Rev. Sci. Instr. 67, 715–725 (1996).
Hermann, C. et al. Surface-enhanced magneto-optics in metallic multilayer films. Phys. Rev. B 64, 235422 (2001).
Kottmann, J. P., Martin, O. J. F., Smith, D. R. & Schultz, S. Plasmon resonances of silver nanowires with a nonregular cross section. Phys. Rev. B 64, 5402 (2001).
Weeber, J. C., Dereux, A., Girard, C., Krenn, J. R. & Goudonnet, J. P. Plasmon polaritons of metallic nanowires for controlling submicron propagation of light. Phys. Rev. B 60, 9061–9068 (1999).
Weeber, J. C. et al. Near-field observation of surface plasmon polariton propagation on thin metal stripes. Phys. Rev. B 64, 045411 (2001).
Bozhevolnyi, S. I., Erland, J., Leosson, K., Skovgaard, P. M. W. & Hvam, J. M. Waveguiding in surface plasmon polariton band gap structures. Phys. Rev. Lett. 86, 3008–3011 (2001).
Bozhevolnyi, S. I., Volkov, V. S. & Leosson, K. Localization and waveguiding of surface plasmon polaritons in random nanostructures. Phys. Rev. Lett. 89, 186801 (2002).
Krenn, J. R. et al. Squeezing the optical near-field zone by plasmon coupling of metallic nanoparticles. Phys. Rev. Lett. 82, 2590–2593 (1999).
Maier, S. A. et al. Local detection of electromagnetic energy transport below the diffraction limit in metal nanoparticle plasmon waveguides. Nat. Mat. 2, 229–232 (2003).
Ebbesen, T. W., Lezec, H. J., Ghaemi, H. F., Thio, T. & Wolff, P. A. Extraordinary optical transmission through sub-wavelength hole arrays. Nature 391, 667–669 (1998).
Ghaemi, H. F., Thio, T., Grupp, D. E., Ebbesen, T. W. & Lezec, H. J. Surface plasmons enhance optical transmission through subwavelength holes. Phys. Rev. B 58, 6779–6782 (1998).
Krishnan, A. et al. Evanescently coupled resonance in surface plasmon enhanced transmission. Opt. Commun. 200, 1–7 (2001).
Degiron, A., Lezec, H. J., Barnes, W. L. & Ebbesen, T. W. Effects of hole depth on enhanced light transmission through subwavelength hole arrays. Appl. Phys. Lett. 81, 4327–4329 (2002).
Martín-Moreno, L. et al. Theory of extraordinary optical transmission through subwavelength hole arrays. Phys. Rev. Lett. 86, 1114–1117 (2001).
Bonod, N., Enoch, S., Li, L., Popov, E. & Nevière, M. Resonant optical transmission through thin metallic films with and without holes. Opt. Expr. 11, 482–490 (2003).
Vigoureux, V. M. Analysis of the Ebbesen experiment in the light of evanescent short range diffraction. Opt. Commun. 198, 257–263 (2001).
Salomon, L., Grillot, F. D., Zayats, A. V. & de Fornel, F. Near-field distribution of optical transmission of periodic subwavelength holes in a metal film. Phys. Rev. Lett. 86, 1110–1113 (2001).
Darmanyan, S. A. & Zayats, A. V. Light tunneling via resonant surface plasmon polariton states and the enhanced transmission of periodically nanostructured metal films. Phys. Rev. B 67, 035424 (2003).
Altewischer, E., van Exter, M. P. & Woerdman, J. P. Plasmon-assisted transmission of entangled photons. Nature 418, 304–306 (2002).
Lezec, H. J. et al. Beaming light from a subwavelength aperture. Science 107, 1895 (2002).
Martín-Moreno, L., Garcia-Vidal, F. J., Lezec, H. J., Degiron, A. & Ebbesen, T. W. Theory of highly directional emission from a single sub-wavelength aperture surrounded by surface corrugations. Phys. Rev. Lett. 90, 167401 (2003).
Hibbins, A. P., Sambles, J. R. & Lawrence, C. R. Gratingless enhanced microwave transmission through a subwavelength aperture in a thick metal plate. Appl. Phys. Lett. 81, 4661–4663 (2002).
Porto, J. A., García-Vidal, F. J. & Pendry, J. B. Transmission resonances on metallic gratings with very narrow slits. Phys. Rev. Lett. 83, 2845–2848 (1999).
García-Vidal, F. J. & Martín-Moreno, L. Transmission and focusing of light in one-dimensional periodically nanostructured metals. Phys. Rev. B 66, 155412 (2002).
Barbara, A., Quemerais, P., Bustarret, E. & Lopez-Rios, T. Optical transmission through subwavelength metallic gratings. Phys. Rev. B 66, 161403 (2002).
Baida, F. I. & Van Labeke, D. Light transmission by subwavelength annular aperture arrays in metallic films. Opt. Commun. 209, 17–22 (2002).
García-Vidal, F. J., Lezec, H. J., Ebbesen, T. W. & Martín-Moreno, L. Multiple paths to enhance optical transmission through a single subwavelength slit. Phys. Rev. Lett. 90, 213901 (2003).
Weber, W. H. & Eagen, C. F. Energy transfer from an excited dye molecule to the sureface plasmons of an adjacent metal. Opt. Lett. 4, 236–238 (1979).
Pockrand, I., Brillante, A. & Möbius, D. Nonradiative decay of excited molecules near a metal surface. Chem. Phys. Lett. 69, 499–504 (1980).
Barnes, W. L. Fluorescence near interfaces: the role of photonic mode density. J. Mod. Opt. 45, 661–699 (1998).
Hobson, P. A., Wedge, S., Wasey, J. A. E., Sage, I. & Barnes, W. L. Surface plasmon mediated emission from organic light emitting diodes. Adv. Mat. 14, 1393–1396 (2002).
Andrew, P., Kitson, S. C. & Barnes, W. L. Surface plasmon energy gaps and photoabsorption. J. Mod. Opt. 44, 395–406 (1997).
Westphalen, M., Kreibig, U., Rostalski, J., Luth, H. & Meissner, D. Metal cluster enhanced organic solar cells. Sol. Energy Mat. Sol. Cells 61, 97–105 (2000).
Coutaz, J. L., Neviere, M., Pic, E. & Reinisch, R. Experimental study of surface-enhanced second-harmonic generation on silver gratings. Phys. Rev. B 32, 2227–2232 (1985).
Quail, J. C. & Simon, H. J. Second-harmonic generation with phase-matched long-range and short-range surface plasmons. J. Appl. Phys. 56, 2589–2591 (1984).
Tsang, T. Y. F. Surface-plasmon-enhanced third-harmonic generation in thin silver films. Opt. Lett. 21, 245–247 (1996).