| Abstract | 第1-16页 |
| Chapter 1 Introduction | 第16-25页 |
| ·Electromagnetic metamaterials | 第16页 |
| ·Theoretical and Experimental Background | 第16-24页 |
| ·Metamaterials in Microwave Frequency regime | 第16-18页 |
| ·Metamaterials in Optical Frequency Regime | 第18页 |
| ·Fabrication of Optical metamaterials in Nano-scale | 第18-21页 |
| ·Nonlinear Optical Responses of Metamaterials | 第21-22页 |
| ·Polymerization of Metallic Nano-particles | 第22-24页 |
| ·Methodology of the Study | 第24-25页 |
| Chapter 2 Defected Ground Structure with Complimentary Split Ring Resonator DGS-CSRR as Ultra-Wide Band Bandpass Filter | 第25-50页 |
| ·Introduction | 第25-26页 |
| ·Ultra Wide-band(UWB)from DGS-CSRR) | 第26-29页 |
| ·Designing Wide-band bandpass filter from Metamaterial Resonator | 第29-30页 |
| ·Drude-Lorentz Model of Harmonic Oscillator | 第30-34页 |
| ·Developing UWB bandpass filter | 第34-37页 |
| ·Theoretical Analysis | 第34-37页 |
| ·Simulation Result and discussion | 第37-48页 |
| ·Extraction of Negative Permittivity from DGS-CSRR | 第38-40页 |
| ·Extraction of Negative Permeability from DGS-CSRR | 第40-43页 |
| ·Negative Refractive Index Materials NRM | 第43-45页 |
| ·Scattering from a Double Negative DNG Media | 第45页 |
| ·Transmission and reflection of evanescent wave | 第45-48页 |
| ·Conclusion | 第48-50页 |
| Chapter 3 Nano-Optical Properties of Metalloid-dielectric by Finite Difference Time DomainMethod | 第50-78页 |
| ·Introduction | 第50-53页 |
| ·The Finite Difference Time Domain Method | 第53-55页 |
| ·Dielectric function of Nano-patticles | 第55-57页 |
| ·Optical Absorption Properties of Metallic Nano-particles | 第57-65页 |
| ·Local Electric Field Enhancement(LEFE)from Spheroid metallic Nano-shell | 第65-67页 |
| ·Shape Dependent of Local and Far-field Optical properties | 第67-73页 |
| ·Optical tuning by shape and structure of Nano-Particles | 第69-70页 |
| ·Enhancement of Electric Field from coupled Cones of NP | 第70-72页 |
| ·Enhancement of Electric Field from Defected Spheroid Nano-particles | 第72-73页 |
| ·Enhancement of Electric Field from Horn Torus NPs | 第73页 |
| ·Electric Field Enhancement from Aggregated Nano-particles inside dielectric Medium | 第73-77页 |
| ·Conclusion | 第77-78页 |
| Chapter 4 Optical Characterization of Silica Coated Gold and Silver Nano-particles inside aPolymer by the Finite Deference Time Domain Method | 第78-86页 |
| ·Introduction | 第78-79页 |
| ·Surface Plasmon Resonance of Silica-coated Au/Ag inside a Polymer | 第79-81页 |
| ·Enhancement of Electromagnetic Fields | 第81-83页 |
| ·Tuning of the SPR Peak | 第83-84页 |
| ·Conclusion | 第84-86页 |
| Chapter 5 Summary and Outlook | 第86-90页 |
| ·Conclusion | 第86-88页 |
| ·Present and Future Trend of Nano-technology | 第88-90页 |
| References | 第90-99页 |
| Appendix A The Finite-Difference Time Domain Method | 第99-108页 |
| A.1 Theory | 第99-106页 |
| A.1.1 Reduction of Maxwell's equations to 1D | 第99-100页 |
| A.1.2 1-D time advancement equations | 第100-102页 |
| A.1.3 Choosing △x and △t | 第102页 |
| A.1.4 Source Signal | 第102-103页 |
| A.1.5 Basic Example of 1D FDTD in Matlab | 第103-106页 |
| A.2 FDTD by CST Microwave Studio | 第106-108页 |
| Acknowlegements | 第108页 |
