Metamaterials: Theory, Design, And Applications Guide
While often cited like a paper in academic references, it is a comprehensive collection published by Springer in 2010. It serves as a foundational resource for engineers and researchers, covering topics beyond standard negative index materials. Key Content & Focus Areas
: Microwave and RF applications, including sub-wavelength imaging. Related Foundational Papers
If you are looking for the original "seminar papers" that birthed the field (often discussed within the book), researchers typically refer to these three: Metamaterials: Theory, Design, and Applications Metamaterials: Theory, Design, and Applications
: Development of beam splitters, concentrators, and new antenna types.
: Theoretical designs and experimental verification techniques. While often cited like a paper in academic
: It covers a rapid design method for inhomogeneous metamaterials , which simplifies the creation of complex devices like invisibility cloaks.
The work provides an all-encompassing look at the rapid development of artificial materials with properties not found in nature. Related Foundational Papers If you are looking for
: It introduces optical transformation theory, which is the mathematical framework used to design materials that control electromagnetic wave flow.
While often cited like a paper in academic references, it is a comprehensive collection published by Springer in 2010. It serves as a foundational resource for engineers and researchers, covering topics beyond standard negative index materials. Key Content & Focus Areas
: Microwave and RF applications, including sub-wavelength imaging. Related Foundational Papers
If you are looking for the original "seminar papers" that birthed the field (often discussed within the book), researchers typically refer to these three: Metamaterials: Theory, Design, and Applications
: Development of beam splitters, concentrators, and new antenna types.
: Theoretical designs and experimental verification techniques.
: It covers a rapid design method for inhomogeneous metamaterials , which simplifies the creation of complex devices like invisibility cloaks.
The work provides an all-encompassing look at the rapid development of artificial materials with properties not found in nature.
: It introduces optical transformation theory, which is the mathematical framework used to design materials that control electromagnetic wave flow.