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Metamaterials and Wave Control.
Since the concept was first proposed at the end of the 20th Century, metamaterials have been the subject of much research and discussion throughout the wave community. More than 10 years later, the number of related published articles is increasing significantly. On the one hand, this success can be...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Hoboken :
Wiley,
2013.
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| Colección: | ISTE.
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| Temas: | |
| Acceso en línea: | Texto completo |
MARC
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| 100 | 1 | |a Lheurette, Eric. | |
| 245 | 1 | 0 | |a Metamaterials and Wave Control. |
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| 300 | |a 1 online resource (242 pages) | ||
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| 520 | |a Since the concept was first proposed at the end of the 20th Century, metamaterials have been the subject of much research and discussion throughout the wave community. More than 10 years later, the number of related published articles is increasing significantly. On the one hand, this success can be attributed to dreams of new physical objects which are the consequences of the singular properties of metamaterials. Among them, we can consider the examples of perfect lensing and invisibility cloaking. On other hand, metamaterials also provide new tools for the design of well-known wave functions such as antennas for electromagnetic waves. The goal of this book is to propose an overview of the concept of metamaterials as a perspective on a new practical tool for wave study and engineering. This includes both the electromagnetic spectrum, from microwave to optics, and the field of acoustic waves. Contents 1. Overview of Microwave and Optical Metamaterial Technologies, Didier Lippens. 2. MetaLines: Transmission Line Approach for the Design of Metamaterial Devices, Bruno Sauviac. 3. Metamaterials for Non-Radiative Microwave Functions and Antennas, Divitha Seetharamdoo and Bruno Sauviac. 4. Toward New Prospects for Electromagnetic Compatibility, Divitha Seetharamdoo. 5. Dissipative Loss in Resonant Metamaterials, Philippe Tassin, Thomas Koschny, and Costas M. Soukoulis. 6. Transformation Optics and Antennas, André de Lustrac, Shah Nawaz Burokur and Paul-Henri Tichit. 7. Metamaterials for Control of Surface Electromagnetic and Liquid Waves, Sébastien Guenneau, Mohamed Farhat, Muamer Kadic, Stefan Enoch and Romain Quidant. 8. Classical Analog of Electromagnetically Induced Transparency, Philippe Tassin, Thomas Koschny and Costas M. Soukoulis. | ||
| 505 | 0 | |a Cover; Title page; Contents; Introduction; Chapter 1. Overview of Microwave and Optical Metamaterial Technologies; 1.1. Introduction and background; 1.2. Omega-type arrays; 1.2.1. Dispersion and angular properties; 1.2.2. Tunable omega-type structure; 1.2.3. Omega-type pattern at millimeter wavelengths; 1.2.4. SRRs at infrared; 1.3. Transmission lines with series capacitances and shunt inductances; 1.3.1. Tuneable phase shifter for centimeter wavelengths; 1.3.2. Left-handed transmission lines at tetrahertz frequencies; 1.4. Fishnet approach; 1.4.1. Tunable fishnet for centimeter wavelengths | |
| 505 | 8 | |a 1.4.2. Terahertz subwavelength holes arrays1.4.3. Wedge-type devices; 1.4.4. Fishnet with twisted apertures: chiral device; 1.5. Full dielectric approach: Mie resonance based devices; 1.5.1. BST cube technology; 1.6. Photonic crystal technology; 1.6.1. Principle; 1.6.2. Flat lens; 1.6.3. Carpet cloaking devices; 1.7. Conclusion and prospects; 1.8. Acknowledgments; 1.9. Bibliography; Chapter 2. MetaLines: Transmission Line Approach for the Design of Metamaterial Devices; 2.1. Introduction; 2.2. Historical concepts of transmission lines and homogenization; 2.2.1. Electrical model | |
| 505 | 8 | |a 2.5.4. Ferroelectric agility 2.5.5. Ferrimagnetic agility; 2.6. Conclusion; 2.7. Bibliography; Chapter 3. Metamaterials for Non-Radiative Microwave Functions and Antennas; 3.1. Introduction; 3.2. Metamaterials for non-radiative applications; 3.2.1. Miniaturization; 3.2.2. Bandwidth improvement; 3.2.3. Dual band; 3.2.4. Zeroth-order resonator (ZOR); 3.3. Metamaterials for antennas at microwave frequencies; 3.3.1. Antenna miniaturization; 3.3.2. Efficient electrically small antennas with metamaterials; 3.3.3. Patch antenna miniaturization considering metamaterial substrate | |
| 505 | 8 | |a 3.3.4. Miniature metamaterial antennas: numerical and experimental attempts 3.4. Conclusion; 3.5. Bibliography; Chapter 4. Toward New Prospects for Electromagnetic Compatibility; 4.1. Introduction; 4.2. Electromagnetic compatibility; 4.2.1. Trends in the transport and telecommunication industries; 4.2.2. EMC challenges induced by recent industrial trends -- metamaterials for EMC; 4.3. Electromagnetic shielding -- potential of metamaterials; 4.3.1. Figures of merit for shielding configurations; 4.3.2. One-dimensional metamaterial shield | |
| 505 | 8 | |a 4.4. Metamaterials for 3D shielded cavities -- application to electromagnetic reverberation chambers | |
| 590 | |a ProQuest Ebook Central |b Ebook Central Academic Complete | ||
| 650 | 0 | |a Metamaterials. | |
| 650 | 0 | |a Electromagnetic waves |x Transmission. | |
| 650 | 0 | |a Wave functions. | |
| 650 | 4 | |a Electromagnetic theory |x Mathematics. | |
| 650 | 4 | |a Metamaterials. | |
| 650 | 4 | |a Wave functions. | |
| 650 | 4 | |a Electromagnetic waves |x Transmission. | |
| 650 | 6 | |a Métamatériaux. | |
| 650 | 6 | |a Ondes électromagnétiques |x Propagation. | |
| 650 | 6 | |a Fonction d'onde. | |
| 650 | 7 | |a Electromagnetic waves |x Transmission |2 fast | |
| 650 | 7 | |a Metamaterials |2 fast | |
| 650 | 7 | |a Wave functions |2 fast | |
| 758 | |i has work: |a Metamaterials and Wave Control [electronic resource] (Text) |1 https://id.oclc.org/worldcat/entity/E39PCXMW3cFM6qYJFYKFpG39fy |4 https://id.oclc.org/worldcat/ontology/hasWork | ||
| 776 | 0 | 8 | |i Print version: |a Lheurette, Eric. |t Metamaterials and Wave Control. |d Hoboken : Wiley, ©2013 |z 9781848215184 |
| 830 | 0 | |a ISTE. | |
| 856 | 4 | 0 | |u https://ebookcentral.uam.elogim.com/lib/uam-ebooks/detail.action?docID=1576679 |z Texto completo |
| 880 | 0 | |6 505-00/(S |a Cover -- Title page -- Contents -- Introduction -- Chapter 1. Overview of Microwave and Optical Metamaterial Technologies -- 1.1. Introduction and background -- 1.2. Omega-type arrays -- 1.2.1. Dispersion and angular properties -- 1.2.2. Tunable omega-type structure -- 1.2.3. Omega-type pattern at millimeter wavelengths -- 1.2.4. SRRs at infrared -- 1.3. Transmission lines with series capacitances and shunt inductances -- 1.3.1. Tuneable phase shifter for centimeter wavelengths -- 1.3.2. Left-handed transmission lines at tetrahertz frequencies -- 1.4. Fishnet approach -- 1.4.1. Tunable fishnet for centimeter wavelengths -- 1.4.2. Terahertz subwavelength holes arrays -- 1.4.3. Wedge-type devices -- 1.4.4. Fishnet with twisted apertures: chiral device -- 1.5. Full dielectric approach: Mie resonance based devices -- 1.5.1. BST cube technology -- 1.6. Photonic crystal technology -- 1.6.1. Principle -- 1.6.2. Flat lens -- 1.6.3. Carpet cloaking devices -- 1.7. Conclusion and prospects -- 1.8. Acknowledgments -- 1.9. Bibliography -- Chapter 2. MetaLines: Transmission Line Approach for the Design of Metamaterial Devices -- 2.1. Introduction -- 2.2. Historical concepts of transmission lines and homogenization -- 2.2.1. Electrical model -- 2.2.2. Homogenization -- 2.3. CRLH transmission lines -- 2.3.1. MetaLine cell -- 2.3.2. Case with ωS ωp -- 2.3.4. Balanced case with ωS = ωp -- 2.4. Some technical approaches to realize MetaLines -- 2.4.1. Context -- 2.4.2. Discrete component approach -- 2.4.3. Distributed or semi-lumped element approach in microstrip technology -- 2.4.4. Distributed element approach in coplanar waveguide technology -- 2.4.5. The resonant approach -- 2.5. Toward tunability -- 2.5.1. The dual-band behavior -- 2.5.2. Mechanical agility -- 2.5.3. CRLH line controlled with activecomponents. | |
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