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Metamaterials Handbook - Two Volume Slipcase Set

Edited by Filippo Capolino

CRC Press – 2009 – 1,736 pages

Series: Metamaterials Handbook

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    978-1-42-005362-3
    October 27th 2009

Description

The study of artificial electromagnetic materials, or metamaterials, breaks down the traditional frontiers to combine disciplines such as physics and microfabrication, electromagnetic theory and computational methods, optics and microwaves, and nanotechnology and nanochemistry.

With their unique physical properties and unusual combination of microscopic and nanoscopic structures, metamaterials have application potential in a wide range of fields, from electronics and telecommunications to sensing, medical instrumentation, and data storage. However, the strategic objectives of metamaterial development require close cooperation between the many subareas of the field and cross-fertilization of the research from each.

A superior reference for these multidisciplinary challenges, the Metamaterials Handbook provides the multifaceted understanding required by those researching this broad and exciting field. Featuring contributions from international experts, this book covers the essential aspects of metamaterials, including modeling and design, proven and potential applications in practical devices, fabrication, characterization, and measurement. With detailed references for each topic, it conveniently organizes a wealth of information into two volumes—Theory and Phenomena and Applications—that cover years worth of extensive research in this exciting area.

Summarizing the state of the art in the field of electromagnetic artificial materials, this handbook is an ideal guide to using metamaterials for electronic devices in the entire frequency spectrum, from megahertz to optical frequencies.

Contents

Theory and Phenomena of Metamaterials

Part I: General Concepts

Historical Notes on Metamaterials, C.R. Simovski and S.A. Tretyakov

Material Parameters and Field Energy in Reciprocal Composite Media, C.R. Simovski and S.A. Tretyakov

Symmetry Principles and Group-Theoretical Methods in Electromagnetics of Complex Media, V. Dmitriev

Differential Forms and Electromagnetic Materials, I. V. Lindell

Part II: Modeling Principles of Metamaterials

Fundamentals of Method of Moments for Artificial Materials, C. Craeye, X. Radu, F. Capolino, and A. G. Schuchinsky

FDTD Method for Periodic Structures, J. Chen, F. Yang, and R. Qiang

Polarizability of Simple-Shaped Particles, A. Sihvola

Single Dipole Approximation for Modeling Collections of Nanoscatterers, S. Steshenko and F. Capolino

Mixing Rules, A. Sihvola

Nonlocal Homogenization Theory of Structured Materials, M. G. Silveirinha

On the Extraction of LocalMaterial Parameters of Meta-Materials from Experimental or Simulated Data, C. R. Simovski

Field Representations in Periodic Artificial Materials Excited by a Source, F. Capolino, D. R. Jackson, and D. R. Wilton

Modal Properties of Layered Metamaterials, P. Baccarelli, P. Burghignoli, A. Galli, P. Lampariello, G. Lovat, S. Paulotto, and G. Valerio

Part III: Artificial Magnetics and Dielectrics, Negative Index Media

RF Metamaterials, M. C. K. Wiltshire

Wire Media, I. S. Nefedov and A. J. Viitanen

Split Ring Resonators and Related Topologies, R. Marqués and F. Martin

Designing One-, Two-, and Three-Dimensional Left-Handed Materials, M. Kafesaki, Th. Koschny, C. M. Soukoulis, and E. N. Economou

Composite Metamaterials, Negative Refraction and Focusing, E. Ozbay and K. Aydin

Metamaterials Based on Pairs of Tightly Coupled Scatterers, A. Vallecchi and F. Capolino

Theory and Design of Metamorphic Materials, C. A. Kyriazidou,H. F. Contopanagos, and N. G. Alexopoulos

Isotropic Double Negative Materials, I. Vendik, O. G. Vendik, and M. Odit

Network Topology Derived Metamaterials: Scalar and Vectorial 3-D Configurations and Their Fabrication, P. Russer and M. Zedler

Negative Refraction in IR and Visible Domains, A. Alù and N. Engheta

Part IV: Artificial Chiral, Bianisotropic Media, and Quasicrystals

A Review of Chiral and Bianisotropic Composite Materials Providing Backward Waves and Negative Refractive Indices, C.-W. Qiu, S. Zouhdi, and A. Sihvola

Negative Refraction and Perfect Lenses Using Chiral and Bianisotropic Materials, S.A. Tretyakov

Bianisotropic Materials and PEMC, A. Sihvola and I. V. Lindell

Photonic Quasicrystals: Basics and Examples, A. Della Villa, V. Galdi, F. Capolino, S. Enoch, and G. Tayeb

Part V: Transmission-Line-Based Metamaterials

Fundamentals of Transmission-LineMetamaterials, A. K. Iyer and G. V. Eleftheriades

Corrugated RectangularWaveguides: Composite Right/Left-Handed Metaguides, I. A. Eshrah, A. A. Kishk, A. B. Yakovlev, and A. W. Glisson

Part VI: Artificial Surfaces

Frequency Selective Surface and Electromagnetic Bandgap Theory Basics, J. C. Vardaxoglou, R. Lee, and A. Chauraya

High-Impedance Surfaces, G. Goussetis, A. P. Feresidis, A. B. Yakovlev, and C. R. Simovski

Part VII: Tunable and Nonlinear Metamaterials

Tunable Surfaces: Modeling and Realizations, C. Panagamuwa and Y. Vardaxoglou

Ferroelectrics as Constituents of Tunable Metamaterials, O. G. Vendik and S. P. Zubko

Spin Waves in Multilayered and Patterned Magnetic Structures, N. Grigorieva, B. Kalinikos, M. Kostylev, and A. Stashkevich

Nonlinear Metamaterials, M. Lapine and M. Gorkunov

Magnetoinductive Waves I: Theory, O. Sydoruk, O. Zhuromskyy, A. Radkovskaya, E. Shamonina, and L. Solymar

Applications of Metamaterials

Part I: Super-resolution

Negative-Refractive-Index Transmission-Line (NRI-TL) Metamaterial Lenses and Superlenses, A. K. Iyer and G. V. Eleftheriades

Flat Lenses Formed by Photonic and Electromagnetic Crystals, P. A. Belov, C. R. Simovski, and P. Ikonen

Subwavelength Imaging by Arrays of Metallic Rods, P. A. Belov, M. G. Silveirinha, C. R. Simovski, and Y. Hao

Super Resolution and Near-Field Enhancement with Layers of Resonant Arrays of Nanoparticles, S. Steshenko, F. Capolino, S. Tretyakov, and C. R. Simovski

Super-Resolution Imaging with Hyperlens, H. Lee, Yi Xiong, Zhaowei Liu, Cheng Sun, and Xiang Zhang

Part II: Cloaking

Cloaking and Transformation Media, U. Leonhardt and T. G. Philbin

Scattering Cancellation and Plasmonic Cloaking, A. Alù and N. Engheta

Electromagnetic Cloaks and Concentrators, A. D. Yaghjian, S. Maci, and E. Martini

Part III: Circuit Applications in the Microwave, Millimeter Wave, and THz Frequency Ranges

Application of Split Ring Resonators to Microwave Circuit Design, F. Martín and R. Marqués

Application of Electromagnetic Band Gaps to Microwave Circuit Design, J. Bonache, F. Falcone, I. Gil, J. García-García, and F. Martín

Small andMultiband MNG Resonators: Spiral, Prefractal, and Other Geometries, P. J. Ferrer, J. M. González-Arbesú, J. Romeu, J. Parrón, G. Junkin, and R. Villarino

Artificial Ferromagnetic Nanostructured Substrate for Planar Tunable Circuits, J. Spiegel, I. Huynen, L. Piraux, and A. Saib

Microwave Phase Shifters and Filters Based on a Combination of Left-Handed and Right-Handed Transmission Lines, I. B. Vendik, D. V. Kholodnyak, and P. V. Kapitanova

Magnetoinductive Waves II: Applications, O. Sydoruk, A. Radkovskaya, O. Zhuromskyy, E. Shamonina, and L. Solymar

Part IV: Radiation Applications in the Microwave, Millimeter Wave, and THz Frequency Ranges

CRLH Metamaterial Antennas, Part I: Theory and Antenna-Related Concepts, C. Caloz and T. Itoh

CRLH Metamaterial Antennas, Part II: Leaky-Wave and Resonant Antennas, C. Caloz and T. Itoh

Recent Developments of Metamaterial-Based and Metamaterial-Inspired Efficient Electrically Small Antennas, R. W. Ziolkowski and A. Erentok

Application of Metamaterials to Microwave Patch and Leaky-Wave Antennas, L. Vegni, F. Bilotti, A. Alù, and N. Engheta

Enhancement of Directivity by Using Metamaterial Substrates, P. Burghignoli, G. Lovat, F. Capolino, D. R. Jackson, and D. R.Wilton

Metamaterial Antenna Applications, J (Yiannis) C. Vardaxoglou, R. D. Seager, J. A. Flint, and A. Chauraya

High-Impedance Surfaces: Applications, A.P. Feresidis, G. Goussetis, A.B. Yakovlev, and C. R. Simovski

Controllable Metamaterials for Telecoms: Principle, Design, and Applications. Applications in the GSM, GPRS, and UMTS Bands, F. Gadot and A. de Lustrac

Optoelectronic Control of Metamaterials W. J. Padilla and R. D. Averitt

Extraordinary Transmission as an Impedance-Matching Problem, F. Medina, F. Mesa, R. Marqués, and D. C. Skigin

Part V: Applications in the Optical Frequency Range

Plasmonic Materials for Near-Field Optical Nanolithography, R. J. Blaikie

Enhanced Transmission at Optical Frequencies, L. Martin-Moreno and F. J. Garcia-Vidal

Photonic Crystals for Integrated Communication Systems, H. Benisty and J.-M. Lourtioz

Photonic Applications of Two-Dimensional Quasicrystals, D. N. Chigrin and A. V. Lavrinenko

Part VI: Fabrication Techniques for THz and Optical Metamaterials

Fabrication and Optical Characterization of Photonic Metamaterials, S. Linden and M. Wegener

Metamaterials at Optical Frequencies: Fabrication and Measurements, Nigel P. Johnson, R. M. De La Rue, and S. A. De La Rue

Self-Organized Structures for Metamaterials, D. A. Pawlak

Self-Assembly and Nanochemistry Techniques for the Fabrication of Metamaterials, V. Ponsinet, A. Aradian, P. Barois, and S. Ravaine

Author Bio

Dr. Capolino is a doctor of electrical engineering and is currently with the Department of Electrical Engineering and Computer Science of the University of California, Irvine. USA. He has been with the Department of Information Engineering of the University of Siena, Italy, since 2002, and also with the Department of Electrical and Computer Engineering of the University of Houston, Texas, USA. Dr. Capolino’s research interests include:

  • Metamaterials and their applications in sensors, antennas, and waveguides
  • Micro and nanotechnology
  • Sensors in both microwave and optical ranges
  • Wireless, antennas, and telecommunications systems
  • Theoretical and applied electromagnetics in general

Name: Metamaterials Handbook - Two Volume Slipcase Set (Hardback)CRC Press 
Description: Edited by Filippo Capolino. The study of artificial electromagnetic materials, or metamaterials, breaks down the traditional frontiers to combine disciplines such as physics and microfabrication, electromagnetic theory and computational methods, optics and microwaves, and...
Categories: Electromagnetics & Microwaves, Optics & optoelectronics