Applications of metamaterials /
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| Format: | eBook |
| Language: | English |
| Language Notes: | English. |
| Published: |
Boca Raton, FL :
Taylor & Francis,
2009.
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| Series: | Metamaterials handbook.
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| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- Foreword; Preface; Editor; Advisory Board; Contributors; Part I: Super-Resolution; Chapter 1. Negative-Refractive-Index Transmission-Line (NRI-TL) Metamaterial Lenses and Superlenses; Chapter 2. Flat Lenses Formed by Photonic and Electromagnetic Crystals; Chapter 3. Subwavelength Imaging by Arrays of Metallic Rods; Chapter 4. Super-Resolution and Near-Field Enhancement with Layers of Resonant Arrays of Nanoparticles; Chapter 5. Super-Resolution Imaging with Hyperlens; Part II: Cloaking; Chapter 6. Cloaking and Transformation Media
- Chapter 7. Scattering Cancellation and Plasmonic CloakingChapter 8. Electromagnetic Cloaks and Concentrators; Part III: Circuit Applications in the Microwave, Millimeter Wave, and THz Frequency Ranges; Chapter 9. Application of Split Ring Resonators to Microwave Circuit Design; Chapter 10. Application of Electromagnetic Band Gaps to Microwave Circuit Design; Chapter 11. Small and Multiband MNG Resonators: Spiral, Prefractal, and Other Geometries; Chapter 12. Artificial Ferromagnetic Nanostructured Substrates for Planar Tunable Circuits
- Chapter 13. Microwave Phase Shifters and Filters Based on a Combination of Left-Handed and Right-Handed Transmission LinesChapter 14. Magnetoinductive Waves II: Applications; Part IV: Radiation Applications in the Microwave, Millimeter Wave, and THz Frequency Ranges; Chapter 15. CRLH Metamaterial Antennas, Part I: Theory and Antenna-Related Concepts; Chapter 16. CRLH Metamaterial Antennas, Part II: Leaky-Wave and Resonant Antennas; Chapter 17. Recent Developments of Metamaterial-Based and Metamaterial-Inspired Efficient, Electrically Small Antennas
- Chapter 18. Application of Metamaterials to Microwave Patch and Leaky-Wave AntennasChapter 19. Enhancement of Directivity by Using Metamaterial Substrates; Chapter 20. Metamaterial Antenna Applications; Chapter 21. High-Impedance Surfaces: Applications; Chapter 22. Controllable Metamaterials for Telecoms: Principle, Design, and Applications-Applications in the GSM, GPRS, and UMTS Bands; Chapter 23. Optoelectronic Control of Metamaterials; Chapter 24. Extraordinary Transmission as an Impedance-Matching Problem; Part V: Applications in the Optical Frequency Range
- Chapter 25. Plasmonic Materials for Near-Field Optical NanolithographyChapter 26. Enhanced Transmission at Optical Frequencies; Chapter 27. Photonic Crystals for Integrated Communication Systems; Chapter 28. PHotonic Applications of Two-Dimensional Quasicrystals; Part VI: Fabrication Techniques for THz and Optical Metamaterials; Chapter 29. Fabrication and Optical Characterization of Photonic Metamaterials; Chapter 30. Metamaterials at Optical Frequencies: Fabrication and Measurements; Chapter 31. Self-Organized Structures for Metamaterials