Browse By Person: Pile, David
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Number of items: 26.
Journal Article
Bartal, G, Oulton, Rupert, Pile, David, & Zhang, Xiang (2008) Confinement and propagation characteristics of subwavelength plasmonic modes. New Journal of Physics, 10, pp. 1-14.
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76 75Gramotnev, Dmitri, Pile, David, & Vernon, Kristy (2008) Directional coupler using gap plasmon waveguides. Applied Physics B, Lasers and Optics, 93, pp. 99-106.
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20 15Vernon, Kristy C., Gramotnev, Dmitri K., & Pile, David F. P. (2007) Adiabatic nanofocusing of plasmons by a sharp metal wedge on a dielectric substrate. Journal of Applied Physics, 101, p. 104312.
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195 33 35Liu, Z., Pile, David F. P., Luo, Q., Fang, N., & Zhang, X. (2007) Enhanced backward scattering by surface plasmons on silver film. Applied Physics A: Materials Science & Processing, 87(2), pp. 157-160.
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122 1 1Wang, Sheng, Pile, David F. P., Sung, Cheng, & Zhang, Xiang (2007) Nano-pin plasmonic resonator array and its optical properties. Nano Letters, 7(4), pp. 1076-1080.
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45 42Gramotnev, Dmitri, Pile, David, Vogel, Michael W., & Zhang, Xiang (2007) Local electric field enhancement during nano-focusing of plasmons by a tapered gap. Physical Review B (Condensed Matter and Materials Physics), 75(3), 035431.
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328 34 40Pile, David F. P., Gramotnev, Dmitri K., Oulton, Rupert F., & Zhang, Xiang (2007) On long-range plasmonic modes in metallic gaps. Optics Express, 15(21), pp. 13669-13674.
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18 15Oulton, Rupert F., Pile, David F. P., Liu, Yongmin, & Zhang, Xiang (2007) Scattering of Surface Plasmon Polaritons at Abrupt Surface Discontinuities: Implications for Nano-Scale Cavities. Physical Review B (Condensed Matter and Materials Physics), 76, 035408.
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373 40 36Pile, David F. & Gramotnev, Dmitri K. (2006) Numerical analysis of coupled wedge plasmons in a structure of two metal wedges separated by a gap. Journal of Applied Physics, 100, 013101.
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233 27 27Pile, David F. & Gramotnev, Dmitri K. (2006) Adiabatic and non-adiabatic nano-focusing of plasmons by tapered gap plasmon waveguides. Applied Physics Letters, 89(-), 041111.
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557 66 59Pile, David F.P., Ogawa, Takeshi, Gramotnev, Dmitri K., Matsuzaki, Y., Vernon, Kristy C., Yamaguchi, K., et al. (2005) Two-dimensionally localized modes of a nano-scale gap plasmon waveguide. Applied Physics Letters, 87(26), p. 261114.
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504 122 121Pile, David F. P. (2005) Compact-2D FDTD for waveguides including materials with negative dielectric permittivity, magnetic permeability and refractive index. Applied Physics B: Lasers and Optics, 81(5), pp. 607-613.
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501 18 19Pile, David F. P., Ogawa, Takeshi, Gramotnev, Dmitri K., Okamoto, Takeshi, Haraguchi, Masanobu, Fukui, Masuo, et al. (2005) Theoretical and experimental investigation of strongly localized plasmons on triangular metal wedges for sub-wavelength waveguiding. Applied Physics Letters, 87(6), 061106.
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650 127 122Pile, David F. P. (2005) Gap modes of one-dimensional photonic crystal surface waves. Applied Optics, 44(20), pp. 4398-4401.
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563 2 1Pile, David F. P. & Gramotnev, Dmitri K. (2005) Plasmonic subwavelength waveguides: next to zero losses at sharp bends. Optics Letters, 30(10), pp. 1186-1188.
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350 86Pile, David F. P. & Gramotnev, Dmitri K. (2005) Nanoscale Fabry-Perot interferometer using channel plasmon-polaritons in triangular metallic grooves. Applied Physics Letters, 86(16), p. 161101.
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331 30 31Gramotnev, Dmitri K. & Pile, David F. P. (2004) Single-mode subwavelength waveguide with channel plasmon-polaritons in triangular grooves on a metal surface. Applied Physics Letters, 85(26), pp. 6323-6325.
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770 132 130Pile, David F. P. & Gramotnev, Dmitri K. (2004) Channel plasmon-polariton in a triangular groove on a metal surface. Optics Letters, 29(10), pp. 1069-1071.
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644 171 169Goodman, Steven, Gramotnev, Dmitri, & Pile, David (2004) Grazing Angle Scattering of Electromagnetic Waves in Gratings with Varying Mean Parameters. Journal of Modern Optics, 51(1), pp. 13-29.
Gramotnev, Dmitri & Pile, David (2003) Frequency Response of Second Order Extremely Asymmetrical Scattering in Wide Uniform Holographic Gratings. Applied Physics B, 77, pp. 663-671.
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1 1Gramotnev, Dmitri & Pile, David (2003) Higher Order Extremely Asymmetrical Scattering. Optical and Quantum Electronics, 35, pp. 237-257.
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2 1Gramotnev, Dmitri & Pile, David (2003) Second Order Grazing Angle Scattering in Uniform Wide Holographic Gratings. Applied Physics B, 76, pp. 65-73.
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3 3Gramotnev, Dmitri & Pile, David (2002) Extremely Asymmetrical Scatterings in Gratings with Weak Dissipation: some Physical Analogies. Applied Physics B: Lasers & Optics, 75, pp. 695-701.
Gramotnev, Dmitri & Pile, David (2001) Extremely Asymmetrical Scattering of Weakly Dissipating Bulk and Guided Optical Modes in Periodic Bragg Arrays. Journal of Optics A: Pure and Applied Optics, pp. 103-107.
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3 3Conference Paper
Liu, Yongmin, Pile, David F., Liu, Zhaowei, Wu, Dongmin, Sun, Cheng, & Zhang, Xiang (2006) Negative group velocity of surface plasmons on thin metallic films. In The International Society for Optical Engineering (SPIE) 2006: Plasmonics: Metallic Nanostructures and their Optical Properties IV, The International Society for Optical Engineering (SPIE), 63231M.
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545 5 1QUT Thesis
Pile, David Fujio Pelleas (2003) Extremely asymmetrical scattering of waves in periodic Bragg arrays. PhD thesis, Queensland University of Technology.
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