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About this product
- Author(s)Tie Jun Cui,Wei Xiang Jiang,Wen Xuan Tang,Xin Mi Yang,Zhong Lei Mei
- PublisherApple Academic Press Inc.
- Date of Publication01/12/2015
- GenreElectronics Engineering & Communications Engineering
- Place of PublicationOakville
- Country of PublicationCanada
- ImprintApple Academic Press Inc.
- Content Note204 black & white illustrations, 3 black & white tables
- Weight612 g
- Width156 mm
- Height235 mm
- Format DetailsUnsewn / adhesive bound
- Table Of ContentsIntroduction Natural Materials and Metamaterials Homogeneous Metamaterials: Several Special Cases Random Metamaterials Inhomogeneous Metamaterials Structure of This Book Acknowledgments References Effective Medium Theory Lorentz-Drude Models Retrieval Methods of Effective Medium Parameters General Effective Medium Theory References Artificial Particles Electrically Resonant Particles Magnetically Resonant Particles Dielectric-Metal Resonant Particles Complementary Particles Dielectric Particles Nonresonant Particles LC Particles D.C. Particles References Homogeneous Metamaterials: Super Crystals Homogeneous Metamaterials: Periodic Arrangements of Particles Single-Negative Metamaterials Double-Negative Metamaterials Zero-Index Metamaterials Double-Positive Metamaterials References Random Metamaterials: Super Noncrystals Random Metamaterials: Random Arrangements of Particles Diffuse Reflections by Metamaterial Coating with Randomly Distributed Gradients of Refractive Index RCS Reduction by Metasurface with Random Distribution of Reflection Phase References Inhomogeneous Metamaterials: Super Quasicrystals Inhomogeneous Metamaterials: Particularly Nonperiodic Arrays of Meta-Atoms Geometric Optics Method: Design of Isotropic Metamaterials Quasi-Conformal Mapping: Design of Nearly Isotropic Metamaterials Optical Transformation: Design of Anisotropic Metamaterials Examples References Gradient-Index Inhomogeneous Metamaterials Several Representative GRIN Metamaterials 2D Planar Gradient-Index Lenses 2D Luneburg Lens 2D Half Maxwell Fisheye Lens 3D Planar Gradient-Index Lens 3D Half Luneburg Lens 3D Maxwell Fisheye Lens Electromagnetic Black Hole References Nearly Isotropic Inhomogeneous Metamaterials 2D Ground-Plane Invisibility Cloak 2D Compact Ground-Plane Invisibility Cloak 2D Ground-Plane Illusion-Optics Devices 2D Planar Parabolic Reflector 3D Ground-Plane Invisibility Cloak 3D Flattened Luneburg Lens References Anisotropic Inhomogeneous Metamaterials Spatial Invisibility Cloak D.C. Circuit Invisibility Cloak Spatial Illusion-Optics Devices Circuit Illusion-Optics Devices References Conclusions and Remarks Summary of the Book New Trends of Metamaterials References
- Author BiographyTie Jun Cui is the full professor of the School of Information Science and Engineering, Southeast University, Nanjing, China, and associate director of the State Key Laboratory of Millimeter Waves. Since 2013, he has served as a representative of the People's Congress of China. Dr. Cui earned his BSc, MSc, and PhD degrees in electrical engineering from Xidian University, Xi'an, China, in 1987, 1990, and 1993, respectively. He is coeditor of the book Metamaterials: Theory, Design, and Applications and the author of six book chapters. He has published over 350 peer-reviewed journal articles in Science, PNAS, Nature Communications, Physical Review Letters, Physical Review X, Advanced Materials, Light Science & Applications, and IEEE Transactions. Wen Xuan Tang earned her bachelor's degree in electronic engineering and her MSc degree in electromagnetic field and microwave technology from Southeast University, Nanjing, China, in 2006 and 2009, respectively, and her PhD degree in electromagnetics from Queen Mary University of London, London, United Kingdom, in 2012. In November 2012, she joined the School of Information Science and Engineering, Southeast University, Nanjing, China, as a lecturer. She has published over 20 technical articles in highly ranked journals, including IEEE Transactions on Antenna and Propagation, New Journal of Physics, Optics Express, Applied Physics Letters, and Scientific Reports. Xin Mi Yang was born in Suzhou, Jiangsu Province, China, in March 1982. He earned his BS and PhD degrees from Southeast University, Nanjing, China, in 2005 and 2010, respectively, both in the School of Information Science and Engineering. Since November 2010, he has been with the School of Electronics and Information Engineering, Soochow University, Suzhou, China. His current research interests include metamaterials, metasurfaces, LTCC technology, and their applications in antennas and microwave engineering. Zhong Lei Mei is a professor in the School of Information Science and Engineering, Lanzhou University, Lanzhou, China. He is also deputy dean of the school. He received his BSc, MSc, and PhD degrees in radio physics from Lanzhou University, China, in 1996, 1999, and 2007, respectively. Dr. Mei is a visiting research fellow in the State Key Laboratory of Millimeter Waves. His current research interest includes metamaterials and computational electromagnetics. He has published over 30 peer-reviewed journal articles in international journals, including Physical Review Letters, IEEE Transactions on Antenna and Propagation, New Journal of Physics, Optics Express, and Applied Physics Letters. Wei Xiang Jiang earned his PhD degree in electrical engineering from Southeast University, Nanjing, China, in October 2010. He joined the State Key Laboratory of Millimeter Waves, Southeast University, in November 2010, and was promoted to the post of associate professor in April 2011 and professor in April 2015. He has published more than 60 peer-reviewed journal articles in Advanced Materials, Advanced Functional Materials, Materials Today, and Applied Physics Letters. His current research interests include electromagnetic theory, illusion optics, and metamaterials. Dr. Jiang's research has been selected as Research Highlights by Europhysics News in June 2008, Research Highlights in 2008 by Journal of Physics D: Applied Physics, and Research Highlights by Applied Physics Letters in 2011.
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