Ebook: Metamaterials: Theory, Design, and Applications
- Tags: Microwaves RF and Optical Engineering, Optical and Electronic Materials, Magnetism Magnetic Materials
- Year: 2010
- Publisher: Springer US
- Edition: 1
- Language: English
- pdf
Metamaterials: Theory, Design and Applications focuses on the most recent research activity in metamaterials, taking a reader beyond previously covered areas like left-handed materials (LHM) and negative index materials (LIM). Some new developments covered in the book include a rapid design method for inhomogeneous metamaterials, microwave and RF applications of metamaterials and dynamic metamaterial systems. Editors Tie Jun Cui, David R. Smith and Ruopeng Liu bring together the leading international minds focused on metamaterials to provide an all-encompassing look at a rapidly-developing field. This book stands alone as a must-read for any engineer or researcher working with metamaterials.
Drawing on their years of experience in the field, editors Tie Jun Cui, David R. Smith and Ruopeng Liu present a breadth of research in metamaterials, covering areas like:
- Optical transformation theory, including invisible cloaks, concentrators, beam splitters and antennas.
- Photonic metamaterials and the magnetic Plasmon effect.
- Experimental verification techniques for invisible cloaks.
Metamaterials: Theory, Design and Applications focuses on the most recent research activity in metamaterials, taking a reader beyond previously covered areas like left-handed materials (LHM) and negative index materials (LIM). Some new developments covered in the book include a rapid design method for inhomogeneous metamaterials, microwave and RF applications of metamaterials and dynamic metamaterial systems. Editors Tie Jun Cui, David R. Smith and Ruopeng Liu bring together the leading international minds focused on metamaterials to provide an all-encompassing look at a rapidly-developing field. This book stands alone as a must-read for any engineer or researcher working with metamaterials.
Drawing on their years of experience in the field, editors Tie Jun Cui, David R. Smith and Ruopeng Liu present a breadth of research in metamaterials, covering areas like:
- Optical transformation theory, including invisible cloaks, concentrators, beam splitters and antennas.
- Photonic metamaterials and the magnetic Plasmon effect.
- Experimental verification techniques for invisible cloaks.
Metamaterials: Theory, Design and Applications focuses on the most recent research activity in metamaterials, taking a reader beyond previously covered areas like left-handed materials (LHM) and negative index materials (LIM). Some new developments covered in the book include a rapid design method for inhomogeneous metamaterials, microwave and RF applications of metamaterials and dynamic metamaterial systems. Editors Tie Jun Cui, David R. Smith and Ruopeng Liu bring together the leading international minds focused on metamaterials to provide an all-encompassing look at a rapidly-developing field. This book stands alone as a must-read for any engineer or researcher working with metamaterials.
Drawing on their years of experience in the field, editors Tie Jun Cui, David R. Smith and Ruopeng Liu present a breadth of research in metamaterials, covering areas like:
- Optical transformation theory, including invisible cloaks, concentrators, beam splitters and antennas.
- Photonic metamaterials and the magnetic Plasmon effect.
- Experimental verification techniques for invisible cloaks.
Content:
Front Matter....Pages i-xix
Introduction to Metamaterials....Pages 1-19
Optical Transformation Theory....Pages 21-48
General Theory on Artificial Metamaterials....Pages 49-59
Rapid Design for Metamaterials....Pages 61-85
Broadband and Low-Loss Non-Resonant Metamaterials....Pages 87-97
Experiment on Cloaking Devices....Pages 99-114
Finite-Difference Time-Domain Modeling of Electromagnetic Cloaks....Pages 115-153
Compensated Anisotropic Metamaterials: Manipulating Sub-wavelength Images....Pages 155-181
The Dynamical Study of the Metamaterial Systems....Pages 183-214
Photonic Metamaterials Based on Fractal Geometry....Pages 215-245
Magnetic Plasmon Modes Introduced by the Coupling Effect in Metamaterials....Pages 247-269
Enhancing Light Coupling With Plasmonic Optical Antennas....Pages 271-291
Wideband and Low-Loss Metamaterials for Microwave and RF Applications: Fast Algorithm and Antenna Design....Pages 293-319
Experiments and Applications of Metamaterials in Microwave Regime....Pages 321-355
Left-Handed Transmission Line of Low Pass and Its Applications....Pages 357-364
Back Matter....Pages 1-3
Metamaterials: Theory, Design and Applications focuses on the most recent research activity in metamaterials, taking a reader beyond previously covered areas like left-handed materials (LHM) and negative index materials (LIM). Some new developments covered in the book include a rapid design method for inhomogeneous metamaterials, microwave and RF applications of metamaterials and dynamic metamaterial systems. Editors Tie Jun Cui, David R. Smith and Ruopeng Liu bring together the leading international minds focused on metamaterials to provide an all-encompassing look at a rapidly-developing field. This book stands alone as a must-read for any engineer or researcher working with metamaterials.
Drawing on their years of experience in the field, editors Tie Jun Cui, David R. Smith and Ruopeng Liu present a breadth of research in metamaterials, covering areas like:
- Optical transformation theory, including invisible cloaks, concentrators, beam splitters and antennas.
- Photonic metamaterials and the magnetic Plasmon effect.
- Experimental verification techniques for invisible cloaks.
Content:
Front Matter....Pages i-xix
Introduction to Metamaterials....Pages 1-19
Optical Transformation Theory....Pages 21-48
General Theory on Artificial Metamaterials....Pages 49-59
Rapid Design for Metamaterials....Pages 61-85
Broadband and Low-Loss Non-Resonant Metamaterials....Pages 87-97
Experiment on Cloaking Devices....Pages 99-114
Finite-Difference Time-Domain Modeling of Electromagnetic Cloaks....Pages 115-153
Compensated Anisotropic Metamaterials: Manipulating Sub-wavelength Images....Pages 155-181
The Dynamical Study of the Metamaterial Systems....Pages 183-214
Photonic Metamaterials Based on Fractal Geometry....Pages 215-245
Magnetic Plasmon Modes Introduced by the Coupling Effect in Metamaterials....Pages 247-269
Enhancing Light Coupling With Plasmonic Optical Antennas....Pages 271-291
Wideband and Low-Loss Metamaterials for Microwave and RF Applications: Fast Algorithm and Antenna Design....Pages 293-319
Experiments and Applications of Metamaterials in Microwave Regime....Pages 321-355
Left-Handed Transmission Line of Low Pass and Its Applications....Pages 357-364
Back Matter....Pages 1-3
....