The Design of Chiral Metamaterials and Metasurfaces covers the theoretical and experimental study of the properties of chiral metamaterials (composite media that can be engineered to exhibit unique electromagnetic properties), metasurfaces, and helix-structured systems. The book also focuses on the practical applications of the physical properties and the phenomena which are characteristic of chiral metamaterials, including electromagnetic signal polarization conversion and selection, and electromagnetic wave absorption. As chiral materials and meta surfaces offer opportunities for…mehr
The Design of Chiral Metamaterials and Metasurfaces covers the theoretical and experimental study of the properties of chiral metamaterials (composite media that can be engineered to exhibit unique electromagnetic properties), metasurfaces, and helix-structured systems. The book also focuses on the practical applications of the physical properties and the phenomena which are characteristic of chiral metamaterials, including electromagnetic signal polarization conversion and selection, and electromagnetic wave absorption. As chiral materials and meta surfaces offer opportunities for manipulating electromagnetic waves by incorporating an additional degree of freedom, namely the ability to control the polarization of the wave, this book is a welcomed update.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Yaoliang Song received the B.Eng., M.Eng., and Ph.D. degrees in electrical engineering from the Nanjing University of Science and Technology, China, in 1983, 1986, and 2000, respectively. From 2004 to 2005, he was a Research Fellow with the Department of Engineering Science, University of Oxford, UK. He is currently a Professor at the Nanjing University of Science and Technology, where he is also the Head of the UWB Radar Imaging Group. His research interests include UWB communication, UWB radar imaging, and advanced signal processing
Inhaltsangabe
1. Introduction References 2. Chiral metamaterials and their manufacturing methods 3. Metamaterials based on helical elements with optimal parameters for the microwave range 4. Helical-structured metamaterials with optimal parameters and their properties in the terahertz range 5. Electromagnetic waves in natural helical-structured systems with optimal parameters 6. Design and manufacture of planar chiral metamaterial structure 7. Design and preparation of multi-layer interconnections of metamaterials with stereo-chiral structure
1. Introduction References 2. Chiral metamaterials and their manufacturing methods 3. Metamaterials based on helical elements with optimal parameters for the microwave range 4. Helical-structured metamaterials with optimal parameters and their properties in the terahertz range 5. Electromagnetic waves in natural helical-structured systems with optimal parameters 6. Design and manufacture of planar chiral metamaterial structure 7. Design and preparation of multi-layer interconnections of metamaterials with stereo-chiral structure
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