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Metamaterial and Frequency Selective Surface Assisted Antenna Design : From Fundamentals to Novel Design Approaches.

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Format:
Book
Author/Creator:
Saha, Snehasish.
Contributor:
Reddy, P. Soni.
Mondal, Rahul.
Sarkar, Debasree Chanda.
Sarkar, Partha Pratim.
Series:
IOP Series in Electromagnetics and Metamaterials Series
Language:
English
Subjects (All):
Metamaterials.
Frequency selective surfaces.
Physical Description:
1 online resource (175 pages)
Edition:
1st ed.
Place of Publication:
Bristol : Institute of Physics Publishing, 2025.
Summary:
This book serves as a comprehensive resource on the application of metamaterial in different areas such as - wireless communications, microwave, terahertz and medical domains. It covers different aspects of metamaterial starting from theoretical concepts to hardware implementation.
Contents:
Intro
Author biographies
Dr Ayan Chatterjee
Dr Snehasish Saha
Dr Sushanta Sarkar
Dr Partha Pratim Sarkar
Chapter Introduction to metamaterial and metasurface
1.1 Introduction
1.2 Fundamentals of metamaterial and metasurface
1.3 Applications of metamaterial and metasurface
1.3.1 Metamaterials in antenna design
1.3.2 Metamaterial inspired microwave sensor
1.3.3 Design of FSS using metamaterial and metasurface
1.4 Conclusion
References
Chapter Basics of antenna and frequency selective surface
2.1 Fundamentals of antennas
2.1.1 Radiation from antenna
2.1.2 Basic parameters of antenna
2.1.3 Various antennas and their applications
2.2 Fundamentals of frequency selective surfaces
2.2.1 Geometry of FSS
2.2.2 Principle of operation
2.2.3 Conventional frequency selective surfaces
2.2.4 Applications of frequency selective surfaces
Chapter Design of metamaterial-based antenna and FSS for microwave and terahertz applications
3.1 Metamaterial-based periodic structures
3.2 MTM-based microwave and THz antenna
3.2.1 MTM-based antennas for microwave applications
3.2.2 MTM-based antennas for THz applications
3.3 MTM-based FSSs for microwave and THz applications
3.3.1 MTM-based FSS structures for filtering applications
3.3.2 MTM-based FSS structures as absorbers
3.3.3 MTM-inspired polarization converter
3.3.4 MTM-based FSS for biomedical application
Chapter Metamaterial inspired graphene-based antenna and FSS design
4.1 Introduction
4.2 Analysis of graphene-based metamaterials
Chapter Design of metamaterial-inspired antennas and FSSs for conformal applications
5.1 Significance of metamaterial-inspired structures
5.2 Metamaterial-inspired FSSs for conformal applications.
5.2.1 Conformal FSS-based absorber
5.2.2 Conformal FSS for non-absorbing applications
5.3 Metamaterial-inspired antennas for conformal applications
Chapter Metamaterial-based reconfigurable antenna and FSS design
6.1 Introduction
6.2 Some tuning techniques for getting reconfigurability
6.3 Tunable microwave metamaterials
6.3.1 Tunable terahertz metamaterials
6.3.2 Mechanically shifting of metamaterial layers
6.3.3 Conductive polymers for metamaterial tuning
6.3.4 Meta liquid crystals (MCL)
6.4 Some reconfigurable FSS using metamaterial
6.5 Reconfigurable antenna using metamaterial based FSS
Chapter Design of metamaterial-based antennas and FSSs for biomedical applications
7.1 Introduction
7.2 Metamaterial based antennas for biomedical applications
7.2.1 MTM-based on-body antennas
7.2.2 MTM-based implantable antennas
7.3 Metamaterial based FSSs for biomedical applications
7.3.1 Biomedical sensing
7.3.2 Wireless power transmission enhancement
7.3.3 Integration with wearable antennas
Chapter 3D metamaterial: recent trends and applications
8.1 Introduction
8.2 Growth of research and market of 3D metamaterials
8.3 Some computational methods for 3D structures solution in recent years
8.4 Some designs of 3D metamaterial-based structures
8.5 Recent fabrication process of 3D metamaterial structures
References.
Notes:
Description based on publisher supplied metadata and other sources.
Part of the metadata in this record was created by AI, based on the text of the resource.
Other Format:
Print version: Saha, Snehasish Metamaterial and Frequency Selective Surface Assisted Antenna Design
ISBN:
9780750354240
OCLC:
1526231124

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