Đồ Án Plasmonics nanofocusing based on longrange surface plasmon polaritons

Thảo luận trong 'Viễn Thông' bắt đầu bởi Phí Lan Dương, 12/12/13.

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    #1 Phí Lan Dương, 12/12/13
    Abstract 2
    List of Figures. 5
    List of Symbols. 7
    List of Abbreviations. 8
    Introduction. 9
    Chapter 1 Basics of Surface Plasmon Polaritons. 11
    1.1 Maxwell’s Equations. 11
    1.2 Surface Plasmon Polaritons at Metal-Insulator Interfaces. 13
    1.2.1 The Wave Equation of TM Mode and TE Mode. 13
    1.2.2 Surface Plasmon Polaritons at a Single Interface. 17
    1.2.3 Multilayer Systems and the Long Ranging Modes. 19
    1.3 Excitation Methods. 23
    1.3.1 Prism Coupling. 23
    1.3.2 Grating Coupling. 25
    1.3.3 End-fire Coupling Excitation. 27
    Chapter 2 Demand for nanofocusing, an idea and supporting results. 29
    2.1 The Increasing Demand of Nanofocusing and an Idea. 29
    2.2 Supporting Results. 30
    2.2.1 Extended Long Range Surface Plasmon Polaritons. 30
    2.2.2 Apertureless Nanotip[COLOR=windowtext]. [/COLOR][COLOR=windowtext]31[/COLOR]
    [FONT=times new roman]2.2.3 Plasmonic Nanofocusing Based on a Metal Coated Axicon Prism [COLOR=windowtext]32[/COLOR]
    [FONT=times new roman]Chapter 3 FDTD simulation[COLOR=windowtext]. [/COLOR][COLOR=windowtext]35[/COLOR]
    [FONT=times new roman]3.1 FDTD Simulation[COLOR=windowtext]. [/COLOR][COLOR=windowtext]35[/COLOR]
    [FONT=times new roman]3.2 Numerical Dispersion[COLOR=windowtext]. [/COLOR][COLOR=windowtext]41[/COLOR]
    [FONT=times new roman]3.3 Numerical Stability – The Courant-Friedrichs-Lewy Stability Criterion[COLOR=windowtext]. [/COLOR][COLOR=windowtext]42[/COLOR]
    [FONT=times new roman]3.4 Perfect Electric Conductors[COLOR=windowtext]. [/COLOR][COLOR=windowtext]43[/COLOR]
    [FONT=times new roman]3.5 Dielectric-Dielectric Interface[COLOR=windowtext]. [/COLOR][COLOR=windowtext]43[/COLOR]
    [FONT=times new roman]3.6 Terminating The Simulation Domain[COLOR=windowtext]. [/COLOR][COLOR=windowtext]46[/COLOR]
    [FONT=times new roman]Chapter 4 Waveguide structure, simulation results and discussions[COLOR=windowtext]. [/COLOR][COLOR=windowtext]53[/COLOR]
    [FONT=times new roman]4.1 Centre symmetric longrange plasmonics waveguide. [COLOR=windowtext]53[/COLOR]
    [FONT=times new roman]4.2 Asymmetric MDM waveguide for long-range surface wave excitation. [COLOR=windowtext]54[/COLOR]
    [FONT=times new roman]4.3 Combination of centre symmetric MDM and two side-asymmetric plasmonic waveguide. [COLOR=windowtext]56[/COLOR]
    [FONT=times new roman]4.4 Waveguide Structure[COLOR=windowtext]. [/COLOR][COLOR=windowtext]59[/COLOR]
    [FONT=times new roman]4.5 Simulation results[COLOR=windowtext]. [/COLOR][COLOR=windowtext]61[/COLOR]
    [FONT=times new roman]4.3 The Dependence of the Field Magnification Factor and the Beam Side on Parameters[COLOR=windowtext]. [/COLOR][COLOR=windowtext]67[/COLOR]
    [FONT=times new roman]Conclusion[COLOR=windowtext]. [/COLOR][COLOR=windowtext]71[/COLOR]
    [FONT=times new roman]References[COLOR=windowtext]. [/COLOR][COLOR=windowtext]72[/COLOR]
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