Research Trends in Metamaterials
نویسنده
چکیده
Metamaterials are a new class of ordered composites that exhibit exceptional electromagnetic properties not readily observed in nature. In particular, artificial materials with both negative permittivity and permeability have attracted widespread interest in recent years. These composites are constructed from an array of metallic in dielectric and magnetic substrates and exhibit unusual electromagnetic properties such as inverted Snell's law and Doppler shift behavior within a particular frequency range. Recent research activities in the field of metamaterials have not only demonstrated interesting physical phenomena but also lead to the development of design procedures and the realization of promising new microwave and millimeter-wave components and devices. A promising technique for the creation of new electromagnetic materials is topology design optimization. Significant research efforts have led to the development of microwave and millimeter-wave applications of metamaterials such as couplers, resonators, negative refractive index lenses, small antennas, backfire-to-endfire leaky-wave antennas, and absorbers. These new metamaterials should open up a new field of future automotive applications, such as beam steering antenna systems for radar and mobile communication, novel magnetic materials for electric motors, and high-performance absorbing and shielding materials for electromagnetic compatibility. In this review, we survey metamaterials in microwave and millimeter-wave applications. In addition, we present recent R&D activities of our laboratory in the field of metamaterials.
منابع مشابه
Recent Advances and Current Trends in Metamaterial-by-Design
Thanks to their potential applications in several engineering areas, metamaterials gained much of attentions among different research communities, leading to the development of several analysis and synthesis tools. In this context, the metamaterial-by-design (MbD) paradigm has been recently introduced as a powerful tool for the design of complex metamaterials-based structures. In this work a re...
متن کاملGiant Goos-Häenchen Shift of a Gaussian Beam Reflected from One-Dimensional Photonic Crystals Containing Left-Handed Lossy Metamaterials
We perform a theoretical investigation on the Goos-Häenchen shift (the lateral shift) in one-dimensional photonic crystals (1DPCs) containing left-handed (LH) metamaterials. The effect was studied by use of a Gaussian beam. We show that the giant lateral displacement is due to the localization of the electromagnetic wave which can be both positive and negative depending on the incidence angle o...
متن کاملMetamaterials: a new frontier of science and technology.
Metamaterials, artificial composite structures with exotic material properties, have emerged as a new frontier of science involving physics, material science, engineering and chemistry. This critical review focuses on the fundamentals, recent progresses and future directions in the research of electromagnetic metamaterials. An introduction to metamaterials followed by a detailed elaboration on ...
متن کاملMeta-Chirality: Fundamentals, Construction and Applications
Chiral metamaterials represent a special type of artificial structures that cannot be superposed to their mirror images. Due to the lack of mirror symmetry, cross-coupling between electric and magnetic fields exist in chiral mediums and present unique electromagnetic characters of circular dichroism and optical activity, which provide a new opportunity to tune polarization and realize negative ...
متن کاملMicrostrip Antenna Gain Enhancement using Near Zero Refractive Index Metamaterials
Some useful features of microstrip patch antennas are low profile, low weight and easy fabrication. However this type of antenna suffers from having a low gain, caused by propagation surface waves. In this paper, a new near zero refractive index metamaterial (MTM) unit cell is designed and fabricated as a superstrate over a Rectangular Microstrip Patch Antennas (RMPA). In order to obtain a maxi...
متن کامل