Metamaterials and metasurfaces : basics and trends /
| Main Author: | |
|---|---|
| Format: | eBook |
| Language: | English |
| Published: |
Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) :
IOP Publishing,
[2023]
|
| Series: | Series in electromagnetics and metamaterials.
|
| Subjects: |
Table of Contents:
- 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 performance
- 2. Plasmonic and transmission-line metamaterials
- 2.1. Introduction
- 2.2. Plasmonic metamaterial
- 2.3. Transmission-line metamaterial
- 3. 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 devices
- 4. Terahertz and optical metamaterial
- 4.1. Introduction
- 4.2. THz
- a promise for various emerging applications including those in metamaterials
- 4.3. Optical metamaterial
- 5. 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 structure
- 6. 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-research
- Appendix 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.