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Metamaterials and metasurfaces :basics and trends /

"Version: 20230401"--Title page verso.Includes bibliographical references.Foreword / by Sir J.B. Pendry -- 1. Metamaterials or left-handed materials--a counter-intuitive artificial material -- 1.1. Introduction -- 1.2. Metamaterial versus other artificial materials -- 1.3. Mathematical basis of the counter-intuitive properties of metamaterial -- 1.4. Boundary conditions in metamaterial -- 1.5. Transmission properties of electromagnetic signal via metamaterial -- 1.6. Metamaterial can make things invisible--the metamaterial cloaking devices -- 1.7. Effect of losses in metamaterial performance2. Plasmonic and transmission-line metamaterials -- 2.1. Introduction -- 2.2. Plasmonic metamaterial -- 2.3. Transmission-line metamaterial3. Matamaterial-inspired passive components, antennas and active devices -- 3.1. Introduction -- 3.2. CRLH-based microwave filter design -- 3.3. CSRR-loaded microstrip patch antenna design -- 3.4. Review of the development of various other metamaterial-inspired antennas and passive components -- 3.5. Innovative trends for passive components and antenna developments -- 3.6. Metamaterial-inspired microwave active devices4. Terahertz and optical metamaterial -- 4.1. Introduction -- 4.2. THz--a promise for various emerging applications including those in metamaterials -- 4.3. Optical metamaterial5. Modelling and characterization of metamaterials -- 5.1. Introduction -- 5.2. Numerical techniques for modelling and characterization of metamaterials -- 5.3. Experimental characterization of metamaterial prism/wedge structure and plane-slab focussing structure6. Metasurfaces--fundamentals, physics, modelling, and applications -- 6.1. Introduction -- 6.2. Metasurface versus metamaterial -- 6.3. Frequency selective surface (FSS) versus metasurface -- 6.4. Various physical aspects of metasurfaces related to application viewpoints of transformation optics -- 6.5. Metasurface modelling and characterization -- 6.6. Application potential of metasurfaces -- 6.7. A brief scenario of the developments and challenges/new possibilities ahead for meta-researchAppendix A. Harmonic oscillator model of materials--Lorentz and Drude model -- Appendix B. Derivations for fe0 and fep B-1 -- Appendix C. Derivation of equation (2.7) C-1 -- Appendix D. The scattering parameters or S-parameters D-1 -- Appendix E. Numerical techniques for metamaterial and metasurface characterization and design.Metamaterials are commonly known to make things invisible. As artificially structured metal-dielectric composites mimicking natural materials they exhibit properties that are not available in Nature, including: negative refractive index, reversal of Doppler effect and the reversed ?eCerenkov effect. Metasurface is a planar version of metamaterial exhibiting a number of novel functionalities. This book reviews the physics, technology, and design issues related to metamaterials and metasurfaces. The text covers the fundamental concepts and potential applications as well as future trends. It explores all aspects of metamaterial's and metasurface's physics and engineering operating in the electromagnetic spectrum covering microwave, terahertz and optical domain. This is a suitable text for teaching in bachelor's and master's degree courses on metamaterials and metasurfaces in universities and engineering colleges. The key audience for this book includes students enrolled on metamaterials and metasurfaces modules, researchers, as well as industry professionals. Part of IOP Series in Electromagnetics and Metamaterials.University teaching and research on this emerging field of metamaterials and metasurfaces both in the academic and industrial fields.Also available in print.Mode of access: World Wide Web.System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.Subal Kar obtained his BSc Physics (Honours) degree from St. Edmund's College, Shillong and BTech, MTech and PhD from the Institute of Radio Physics and Electronics (IRPE), University of Calcutta. He served as Professor and Head of IRPE, CU and taught microwave engineering and related subjects at IRPE from 1983-2016 both at BTech and MTech level. His field of specialization is microwave engineering, metamaterials and high energy physics. Professor Kar was the recipient of the young scientist award of URSI and IEEE MTT and Fulbright award of the US government.Title from PDF title page (viewed on May 2, 2023).

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Series Title
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Call Number
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Publisher
: .,
Collation
1 online resource (various pagings) :illustrations (some color).
Language
English
ISBN/ISSN
9780750355322
Classification
620.11
Content Type
-
Media Type
-
Carrier Type
-
Edition
-
Subject(s)
Metamaterials.
Electricity, electromagnetism & magnetism.
Metasurfaces.
Specific Detail Info
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