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Materials and wave control / / edited by Éric Lheurette ; series editor, Pierre-Noël Favennec
| Materials and wave control / / edited by Éric Lheurette ; series editor, Pierre-Noël Favennec |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley and Sons, Incorporation, , 2013 |
| Descrizione fisica | 1 online resource (242 p.) |
| Disciplina | 539.2 |
| Altri autori (Persone) |
LheuretteEacute}ric
FavennecPierre-Noël |
| Collana | Waves series |
| Soggetto topico |
Electromagnetic waves - Transmission
Wave functions Metamaterials |
| ISBN |
1-118-76208-8
1-118-76214-2 1-118-76185-5 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
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 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 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 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 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 4.4. Metamaterials for 3D shielded cavities - application to electromagnetic reverberation chambers |
| Record Nr. | UNINA-9910140183803321 |
| Hoboken, New Jersey : , : John Wiley and Sons, Incorporation, , 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Materials and wave control / / edited by Éric Lheurette ; series editor, Pierre-Noël Favennec
| Materials and wave control / / edited by Éric Lheurette ; series editor, Pierre-Noël Favennec |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley and Sons, Incorporation, , 2013 |
| Descrizione fisica | 1 online resource (242 p.) |
| Disciplina | 539.2 |
| Altri autori (Persone) |
LheuretteEacute}ric
FavennecPierre-Noël |
| Collana | Waves series |
| Soggetto topico |
Electromagnetic waves - Transmission
Wave functions Metamaterials |
| ISBN |
1-118-76208-8
1-118-76214-2 1-118-76185-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
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 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 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 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 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 4.4. Metamaterials for 3D shielded cavities - application to electromagnetic reverberation chambers |
| Record Nr. | UNINA-9910809163703321 |
| Hoboken, New Jersey : , : John Wiley and Sons, Incorporation, , 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||