| Description |
1 online resource (215 p.) |
| Contents |
Cover -- Half Title -- Title -- Copyright -- Dedication -- Contents -- Preface -- Authors -- Abbreviations -- 1 Fundamentals of Metamaterials -- 1.1 What Are Metamaterials -- 1.2 Unit Cell Concept -- 1.3 Metasurface -- 1.4 Backward Wave Propagation and Negative Refraction -- 1.5 Split-Ring Resonators -- 1.6 Experimental Demonstration of Metamaterial -- References -- 2 Design, Fabrication and Testing of Metamaterials -- 2.1 Design of Metamaterials -- 2.2 Characterization of Metamaterial and Measurement Techniques -- 2.2.1 Non-Resonant Methods of Metamaterial Characterization |
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2.2.2 Nicolson-Ross-Weir (NRW) for Parameter Extraction -- 2.2.3 Waveguide Measurement Technique -- 2.2.4 Free Space Measurement Technique -- 2.3 Design of a Wideband Low-Profile Ultrathin Metasurface for X-Band Application -- 2.3.1 Design of the Metasurface and Experimental Characterization -- 2.4 Design of a Low-Profile Ultrathin Multiband Transmission- and Reflection-Type Metasurface -- 2.4.1 Design of the Metasurface -- 2.4.2 Measurement Results at X-Band -- 2.4.3 Measurement Results at C-Band -- 2.5 Conclusion -- References |
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3 Miniaturization of Microstrip Patch Antennas Using Metamaterials -- 3.1 Introduction -- 3.2 Antenna Miniaturization Techniques -- 3.2.1 Antenna Miniaturization Using High Refractive Index Medium -- 3.2.2 Antenna Miniaturization by Shaping -- 3.2.3 Antenna Miniaturization by Lumped Element Loading -- 3.2.4 Antenna Miniaturization Using Metamaterial Loading -- 3.3 Highly Miniaturized Dual-Band Patch Antenna Loaded with Metamaterial Unit Cell -- 3.3.1 Antenna Design and Working Principle -- 3.3.2 Experimental Results -- 3.4 Triple-Band Miniaturized Patch Antenna Loaded with Metamaterial Unit Cell |
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3.4.1 Antenna Design and Working Principle -- 3.4.2 Antenna Design Analysis -- 3.4.3 Experimental Results -- 3.5 Miniaturized Multiband Microstrip Patch Antenna Using Metamaterial Loading -- 3.5.1 Antenna Design and Working Principle -- 3.5.2 Antenna Design Analysis -- 3.5.3 Experimental Results -- 3.6 Conclusion -- References -- 4 High-Gain Antennas Using a Reflection-Type Metasurface -- 4.1 Introduction -- 4.2 Working Principle -- 4.3 Design of a High-Gain and High Aperture Efficiency Cavity Resonator Antenna for X-Band Applications Using a Reflection-Type Metamaterial Superstrate |
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4.3.1 Design of an FPC Resonator Antenna -- 4.3.2 Measured Results of an FPC Antenna -- 4.4 Wideband Gain Enhancement of an FPC Antenna Using a Reflecting Metasurface for C-Band Applications -- 4.4.1 Design of a Highly Reflective Metasurface -- 4.4.2 Design of a Narrow-Band FPC Antenna and Working Principle -- 4.4.3 Measured Results of a Narrow-Band FPC Antenna -- 4.4.4. Wideband FPC Antenna Design and Measured Results -- 4.5 Conclusion -- References -- 5 High-Gain Antennas Using a Transmission-Type Metasurface -- 5.1 Introduction -- 5.2 Working Principle |
| Notes |
Description based upon print version of record |
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5.3 Design of an Ultrathin Miniaturized Metasurface for Wideband Gain Enhancement for C-Band Applications |
| Form |
Electronic book
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| Author |
Abegaonkar, Mahesh P
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Koul, Shiban Kishen
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| ISBN |
9781000423815 |
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1000423816 |
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