Metamaterials and Metasurfaces
portes grátis
Metamaterials and Metasurfaces
Foundations, trends and applications
Kar, Subal
Institution of Engineering and Technology
02/2026
402
Dura
Inglês
9781837246915
15 a 20 dias
Descrição não disponível.
Chapter 1: Metamaterials or LHM - a counter-intuitive artificial material
Chapter 2: Plasmonic and transmission line metamaterials
Chapter 3: Metamaterial-inspired passive components, antennas, and active devices
Chapter 4: Terahertz and optical metamaterial
Chapter 5: Modeling and characterization of metamaterials
Chapter 6: Metasurfaces - fundamentals, physics, modeling, and applications
Chapter 7: Emerging domains of research in metamaterials/metasurfaces and graphene with application viewpoints
Appendix A: Harmonic oscillator model of materials - Lorentz and Drude model
Appendix B: Derivations for fe0 and fep of equation (2.5) of chapter 2
Appendix C: Derivation of equation (2.7)
Appendix D: Plasma frequency of wire media
Appendix E: The scattering parameters or S-parameters
Appendix F: Numerical techniques for metamaterial and metasurface characterization and design
Chapter 2: Plasmonic and transmission line metamaterials
Chapter 3: Metamaterial-inspired passive components, antennas, and active devices
Chapter 4: Terahertz and optical metamaterial
Chapter 5: Modeling and characterization of metamaterials
Chapter 6: Metasurfaces - fundamentals, physics, modeling, and applications
Chapter 7: Emerging domains of research in metamaterials/metasurfaces and graphene with application viewpoints
Appendix A: Harmonic oscillator model of materials - Lorentz and Drude model
Appendix B: Derivations for fe0 and fep of equation (2.5) of chapter 2
Appendix C: Derivation of equation (2.7)
Appendix D: Plasma frequency of wire media
Appendix E: The scattering parameters or S-parameters
Appendix F: Numerical techniques for metamaterial and metasurface characterization and design
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
negative refractive index; microwave engineering; artificial electromagnetic materials; optical metamaterials; terahertz technology; antennas and propagation; nanophotonics; cloaking
Chapter 1: Metamaterials or LHM - a counter-intuitive artificial material
Chapter 2: Plasmonic and transmission line metamaterials
Chapter 3: Metamaterial-inspired passive components, antennas, and active devices
Chapter 4: Terahertz and optical metamaterial
Chapter 5: Modeling and characterization of metamaterials
Chapter 6: Metasurfaces - fundamentals, physics, modeling, and applications
Chapter 7: Emerging domains of research in metamaterials/metasurfaces and graphene with application viewpoints
Appendix A: Harmonic oscillator model of materials - Lorentz and Drude model
Appendix B: Derivations for fe0 and fep of equation (2.5) of chapter 2
Appendix C: Derivation of equation (2.7)
Appendix D: Plasma frequency of wire media
Appendix E: The scattering parameters or S-parameters
Appendix F: Numerical techniques for metamaterial and metasurface characterization and design
Chapter 2: Plasmonic and transmission line metamaterials
Chapter 3: Metamaterial-inspired passive components, antennas, and active devices
Chapter 4: Terahertz and optical metamaterial
Chapter 5: Modeling and characterization of metamaterials
Chapter 6: Metasurfaces - fundamentals, physics, modeling, and applications
Chapter 7: Emerging domains of research in metamaterials/metasurfaces and graphene with application viewpoints
Appendix A: Harmonic oscillator model of materials - Lorentz and Drude model
Appendix B: Derivations for fe0 and fep of equation (2.5) of chapter 2
Appendix C: Derivation of equation (2.7)
Appendix D: Plasma frequency of wire media
Appendix E: The scattering parameters or S-parameters
Appendix F: Numerical techniques for metamaterial and metasurface characterization and design
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
