Functional metamaterials and metadevices / Xingcun Colin Tong.
Tong, Xingcun Colin, author.
2018
TK7871.15.M48
Available Online

Linked e-resources

Linked Resource Online Access
Concurrent users Unlimited
Authorized users Authorized users
Document Delivery Supplied Can lend chapters, not whole ebooks

Details

Title Functional metamaterials and metadevices / Xingcun Colin Tong.
Author Tong, Xingcun Colin, author.
ISBN 9783319660448 (electronic book)
3319660446 (electronic book)
9783319660431
3319660438
DOI https://doi.org/10.1007/978-3-319-66044-8
Published Cham, Switzerland : Springer, [2018]
Copyright ©2018
Language English
Description 1 online resource (xviii, 277 pages) : illustrations.
Item Number 10.1007/978-3-319-66044-8 doi
Call Number TK7871.15.M48
Dewey Decimal Classification 620.1/1
Summary To meet the demands of students, scientists and engineers for a systematic reference source, this book introduces, comprehensively and in a single voice, research and development progress in emerging metamaterials and derived functional metadevices. Coverage includes electromagnetic, optical, acoustic, thermal, and mechanical metamaterials and related metadevices. Metamaterials are artificially engineered composites with designed properties beyond those attainable in nature and with applications in all aspects of materials science. From spatially tailored dielectrics to tunable, dynamic materials properties and unique nonlinear behavior, metamaterial systems have demonstrated tremendous flexibility and functionality in electromagnetic, optical, acoustic, thermal, and mechanical engineering.  Furthermore, the field of metamaterials has been extended from the mere pursuit of various exotic properties towards the realization of practical devices, leading to the concepts of dynamically-reconfigurable metadevices and functional metasurfaces. The book explores the fundamental physics, design, and engineering aspects, as well as the full array of state-of-the-art applications to electronics, telecommunications, antennas, and energy harvesting. Future challenges and potential in regard to design, modeling and fabrication are also addressed.
Bibliography, etc. Note Includes bibliographical references and index.
Access Note Access limited to authorized users.
Digital File Characteristics text file PDF
Source of Description Online resource; title from PDF title page (SpringerLink, viewed September 25, 2017).
Series Springer series in materials science ; v. 262.
Available in Other Form Print version: 3319660438
Linked Resources Online Access
Record Appears in Online Resources > Ebooks
All Resources
Preface; Abbreviations; Contents; Chapter 1: Concepts From Metamaterials to Functional Metadevices; 1.1 Rationale for Metamaterials Exploration; 1.2 Classification of Metamaterials; 1.3 Evolution of Metamaterials; 1.4 Emerging Functional Metadevices; 1.4.1 Reconfigurable and Tunable Metadevices; 1.4.2 Electro-Optical Metadevices; 1.4.3 Liquid-Crystal Metadevices; 1.4.4 Phase-Change Metadevices; 1.4.5 Superconducting Metadevices; 1.4.6 Ultrafast Photonic Metadevices; 1.4.7 Nonlinear Metadevices with Varactors; 1.4.8 Metadevices Driven by Electromagnetic Forces; 1.4.9 Acoustic Metadevice

2.4.5 Material TuningReferences; Chapter 3: Electromagnetic Metamaterials and Metadevices; 3.1 Fundamental Theory of Electromagnetic Metamaterials; 3.2 Single-Negative Metamaterials; 3.2.1 Metamaterials with Negative Effective Permittivity in the Microwave Regime; 3.2.2 Metamaterials with Negative Effective Permeability in the Microwave Regime; 3.3 Double-Negative Metamaterials; 3.4 Zero-Index Metamaterials; 3.5 Electromagnetic Bandgap Metamaterials; 3.5.1 Types of EBG Structures; 3.5.2 Numerical Modeling of EBG; 3.5.3 EBG Applications; 3.6 Bi-isotropic and Bi-anisotropic Metamaterials

3.7 Microwave Metamaterial-Inspired MetadevicesReferences; Chapter 4: Terahertz Metamaterials and Metadevices; 4.1 Introduction; 4.2 Passive-Type Terahertz Metamaterials; 4.2.1 Terahertz Metamaterials with Electric Responses; 4.2.2 Terahertz Metamaterials with Magnetic Responses; 4.2.3 Terahertz Metamaterials with Negative Refractive Indices; 4.2.4 Broadband Terahertz Metamaterials; 4.3 Active-Type Terahertz Metamaterials; 4.3.1 Electrically Tunable THz Metamaterials; 4.3.2 Optically Tunable THz Metamaterials; 4.3.3 Mechanically Tunable THz Metamaterials; 4.4 Flexible THz Metamaterials

Browse Subjects

Show more subjects...

Statistics

from
to
Export