Metamaterials-by-Design Theory, Technologies, and Vision Photonic Materials and Applications Series
Coordonnateurs : Alù Andrea, Engheta Nader, Massa Andrea, Oliveri Giacomo
Metamaterials-by-Design: Theory, Technologies, and Vision is devoted to a comprehensive review of the latest advancements and current trends in the field of system-level-oriented metamaterial design methods, technologies, and future perspectives. Starting from the theoretical and methodological motivations of this research and covering macro-scale performance-driven design of volumetric and planar metamaterials, the book introduces advanced task-oriented modeling approaches. The approaches discussed include specific reference to their multi-scale / multi-physics customization in recent metamaterial science and engineering. In the introduction of these concepts there is particular attention paid to the illustration of the physical mechanisms and phenomena at the basis of the field manipulation capabilities enabled by metamaterials. Then, a wide set of recent application examples in microwave, terahertz, photonics, and optics scenarios is reviewed, highlighting the logical and methodological interconnections among the different domains. For example, contributions from industry and academic perspectives on active and passive metamaterial-enhanced devices for communications and sensing are included. The final part of the volume is aimed at providing a perspective regarding the current trends, future research, and application tracks in system-performance-driven metamaterial design methodologies and technologies, included potential applications in future reconfigurable and cognitive materials. Metamaterials-by-Design is suitable for researchers and engineers in academia and R&D in industry working in materials science, engineering, and related applications areas.
PART/SECTION 1: CONCEPTS, IDEAS, AND METHODOLOGIES IN METAMATERIAL-BY-DESIGN 1. Metamaterials-by-Design: Introduction and Paradigm 2. Task-oriented Modeling of Metamaterials and Metasurfaces 3. Task-oriented Design of Metamaterials: Principles and Methodologies PART/SECTION 2: APPLICATIONS OF METAMATERIALS-BY-DESIGN PARADIGM IN MICROWAVES, TERAHERTZ, PHOTONICS, AND OPTICS FOR SPACE, AVIONICS, AUTOMOTIVE, AND MEDICAL SCENARIOS 4. Field manipulation through MbD-oriented Devices 5. Recent Advancements in Microwave MTM-powered Application-Oriented Systems and Devices 6. Scattering-signature control via digital coding metasurfaces 7. Task-oriented Reconfigurable Metamaterials 8. Multi-Physics Task-Oriented Metamaterials: Scenarios and Recent Developments PART/SECTION 3: ACADEMIC AND INDUSTRIAL VISION ON TASK-ORIENTED METAMATERIAL TECHNOLOGIES 9. Digital Reconfigurable Intelligent Surfaces: On the Impact of Realistic Reradiation Models 10. Task-Oriented Metamaterial Technologies and Applications: An Industrial Perspective 11. Task-Oriented Metamaterial Technologies and Applications: A Mobile Communications industrial perspective
Dr. Nader Engheta is the H. Nedwill Ramsey Professor of Electrical and Systems Engineering at the University of Pennsylvania, Philadelphia, Pennsylvania, USA. He received the BS degree (with highest rank) in electrical engineering from the University of Tehran, the MS degree in electrical engineering and the Ph.D. degree in electrical engineering (with a minor in physics) both from the California Institute of Technology (Caltech). After spending one year as a Postdoctoral Research Fellow at Caltech and four years as a Senior Research Scientist at Kaman Sciences Corporation's Dikewood Division in Santa Monica, CA, he joined the faculty of the University of Pennsylvania, where he rose through the ranks and is currently H. Nedwill Ramsey Professor of Electrical and Systems Engineering. He is also a member of the Mahoney Institute of Neurological Sciences at the University of Pennsylvania, and holds secondary appointments in the Department of Bioengineering and the Department of Physics and Astronomy at University of Pennsylvania. He was the graduate group chair of electrical engineering from July 1993 to June 1997.
Andrea Massa is a
- Includes comprehensive review of the research developments, methodologies, and opportunities in the field of metamaterials-by-design
- Discusses new and emerging applications of metamaterials in microwave and terahertz spectrum, photonics, and optics scenarios
- Reviews performance-driven metamaterial design methodologies and technologies in communications and sensing
Date de parution : 04-2024
Ouvrage de 400 p.
15x22.8 cm