By Filippo Capolino
This ebook makes use of the 1st volume’s exploration of idea, easy homes, and modeling themes to strengthen readers’ realizing of functions and units which are in keeping with synthetic fabrics. It explores a variety of purposes in fields together with electronics, telecommunications, sensing, clinical instrumentation, and information garage. The textual content additionally features a useful user’s advisor and explores key components within which synthetic fabrics have constructed. It comprises specialists’ views on present and destiny functions of metamaterials, to provide a well-rounded view on cutting-edge technologies.
Read or Download Applications of Metamaterials PDF
Similar electricity books
For good over a decade, the numerical method of box computation has been gaining steadily larger value. Analytical tools of box compu tation are, at top, not able to deal with the very large choice of configura tions within which fields needs to be computed. nonetheless, numerical tools can accommodate many functional configurations that analytical equipment can't.
Eventually: the hot variation of Brandt and Dahmen's grasp piece, for years to be had for computing device or Mac, now back on hand in a Java version for home windows, Macintosh, and Linux alltogether in a single booklet with CD-ROM. in keeping with the interactive application INTERQUANTA (included at the CD-ROM) and its vast 3D colour picture good points, the publication publications its readers via greater than 250 class-tested interactive difficulties.
The purpose of this e-book is to explain and talk about the aurora as an optical phenomenon, one that might be saw by way of the bare eye in addition to with extra delicate optical detectors. It keeps the culture of research ing that spectacular and ingenious play of nature, the northern lighting, visible and mentioned via the Greek philosphers as early because the 6th century B.
Metamaterials, man made electromagnetic media accomplished through structuring at the subwave-length-scale have been at first advised for the damaging index and superlensing. They grew to become a paradigm for engineering electromagnetic house and controlling propagation of waves. The examine time table is now moving on reaching tuneable, switchable, nonlinear and sensing functionalities.
- Magnetic Monopoles
- Introduction to wave scattering, localization, and mesoscopic phenomena
- Fundamentals of Electric Circuits (5th Edition)
- Ion-Induced Electron Emission from Crystalline Solids (Springer Tracts in Modern Physics)
Additional info for Applications of Metamaterials
Balmain, Negative-Refraction Metamaterials: Fundamental Principles and Applications. John Wiley & Sons, New York, . . N. Engheta and R. Ziolkowski, Metamaterials: Physics and Engineering Explorations. John Wiley & Sons, Hoboken, NJ, . . R. Gajic, R. Meisels, F. Kuchar, and K. Hingerl, Refraction and rightness in photonic crystals, Opt. Express, (): –, . . S. Forteinopoulou and C. Soukoulis, Electromagnetic wave propagation in two-dimentional photonic crystals: A study of anomalous refractive effects, Phys.
L. Garcia-Pomar and M. Nieto-Vesperinas, Waveguiding, collimation and subwavelength concentration in photonic crystals, Opt. Express, (): –, . . R. W. Ziolkowski, Propagation in and scattering from a matched metamaterial having a zero index of refraction, Phys. Rev. E, : , . . D. R. Smith and D. Schurig, Electromagnetic wave propagation in media with indefinite permittivity and permeability tensors, Phys. Rev. , (): , . . L. Chen, S. He, and L. Shen, Finite-size effects of a left-handed material slab on the image quality, Phys.
Introduction Lens-based imaging devices such as conventional microscopes cannot provide resolution better than λ/, where λ is the wavelength of radiation. This restriction is known as the diffraction limit and holds irrespectively of the frequency of operation—from microwave frequencies up to the visible range. Conventional lenses operate only with the far-field of the source, which is formed by propagating spatial harmonics. The information related to the near-field of the source is transported by evanescent spatial harmonics, which exhibit exponential decay in all natural materials as well as in free space.