Compared with many similar books in the field of metamaterial/artificial electromagnetic structures(AESS), this book takes the theoretical analysis and design implementation of AESbased- multi-functionalMFAsas the breakthrough point. It covers a variety of MFAs, such as mushroom- structure-based MFAs, artificial magnetic conductor(AMC)-based MFAs, compact MFAs, broadband MFAs, end-fire MFAs and so on. It greatly expands the antenna styles and enriches the application examples of AES antennas, which has important values on theoretical research and engineering application.
This book is suitable for university teachers, graduate students and engineers in the field of electromagnetic field and microwave technology. It can also be used as a supplementary teaching material for doctoral students.

《博士后文库》序言
Preface
1 Introduction
1.1 Planar Multi-functional Antennas
1.1.1 Basic Theory of Microstrip Antennas
1.1.2 Conventional Technologies of Planar Multi-functional Antennas
1.2 Planar AES Multi-functional Antennas
1.2.1 AES Theory
1.2.2 Research Status of AESs in Antenna Field
1.2.3 Application of AES in Multi-band Multi-mode Antennas
1.3 Organization and Summary of This Book
References
2 Theoretical Method and Characteristic Analysis of AESs
2.1 Introduction
2.2 Extraction of Equivalent Medium Parameters
2.3 Electromagnetic Characteristics of Resonant AESs
2.3.1 Electromagnetic Characteristics of Printed SRR Structure
2.3.2 Electromagnetic Characteristics of Printed CSRR Structure
2.3.3 Electromagnetic Characteristics of Printed ISR Structure
2.4 Electromagnetic Characteristics of Non-resonant AESs
2.5 Electromagnetic Characteristics of AMC Structures
2.5.1 Surface Wave
2.5.2 Surface Wave Band Gap of AMC Structure
2.5.3 Reflective Phase Band Gap of AMC Structure
2.6 Conclusions
References
3 Multi-functional Antennas Based on Mushroom Structures
3.1 Introduction
3.2 Antenna Model and Theoretical Analysis
3.3 Design 1: AES Antenna with LP Dipole Mode and LP Patch Mode
3.3.1 Design and Analysis
3.3.2 Results and Discussion
3.4 Design 2: AES Antenna with LP Dipole Mode and CP Patch Mode
3.5 Design 3: AES Antenna with CP Dipole Mode and LP Patch Mode
3.5.1 Design and Analysis
3.5.2 Results and Discussion
3.6 Design 4: AES Antenna with CP Dipole Mode and CP Patch Mode
3.6.1 Design and Analysis
3.6.2 Results and Discussion
3.7 Conclusions
References
4 Multi-functional Antennas Based on AMC Structures
4.1 Introduction
4.2 Theory Analysis and Simulation Methods
4.3 Design 1: AMC Antenna with Wide CP Beam for Patch Mode
4.3.1 Antenna Structure and Analysis
4.3.2 Results and Discussion
4.4 Design 2: DBDMDP Antenna Based on AMC Structure
4.4.1 Original Dual-band Dipole Antenna
4.4.2 AMC Design
4.4.3 Antenna Loaded with AMC Structure
4.4.4 Results and Discussion
4.5 Conclusions
References
5 Compact Multi-functional Antennas
5.1 Introduction
5.2 Design 1: AES Antenna with LP Dipole Mode and LP Patch Mode
5.2.1 Design and Analysis
5.2.2 Frequency Tuning Technique
5.2.3 Results and Discussion
5.3 Design 2: AES Antenna with LP Dipole Mode and CP Patch Mode
5.3.1 Design and Analysis
5.3.2 Parameter Analysis
5.3.3 Results and Discussion
5.4 Design 3: AES Antenna with CP Dipole Mode and LP Patch Mode
5.4.1 Design and Analysis
5.4.2 Results and Discussion
5.5 Design 4: AES Antenna with CP Dipole Mode and CP Patch Mode
5.5.1 Design and Analysis of Original Antenna
5.5.2 Bandwidth Enhanced DBDMDCP Antennas
5.5.3 Results and Discussion
5.6 Design 5: Compact Antenna with Triple-band Triple-mode
5.6.1 Antenna Structure
5.6.2 Antenna Analysis and Results
5.7 Design 6: Triple-band Triple-mode Triple-polarization Antenna
5.7.1 Antenna Design
5.7.2 Analysis and Discussion
5.8 Conclusions
References
6 Broadband Multi-functional Antennas
6.1 Introduction
6.2 Design 1: Broadband ZORA AES Antenna
6.2.1 Theory Analysis and Antenna Design
6.2.2 Results and Discussion
6.3 Design 2: AES Antenna with Frequency, Pattern and Polarization Reconfigurable
6.3.1 Design and Analysis
6.3.2 Results and Discussion
6.4 Design 3: Broadband AES Antenna with LP Dipole Mode and CP Patch Mode
6.4.1 Dual-frequency Phase-shifting Characteristics of CRLH TL
6.4.2 Antenna Design and Analysis
6.4.3 Results and Discussion
6.5 Conclusions
References
7 End-fire Multi-functional Antennas
7.1 Introduction
7.2 Design 1: TBTM Antenna Based on