Analytical and Numerical Investigation of Radiation Enhancement by Anisotropic Metamaterial Shells
This paper presents analytical and numerical investigations of a 3D cylindrical metamaterial shell possessing a cylindrically anisotropic permeability that is excited by a finite-sized electric line source. A comprehensive field analysis of the system reveals that the compact metamaterial shell exhi...
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| Published in | IEEE access Vol. 8; pp. 2983 - 2994 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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Piscataway
IEEE
2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Abstract | This paper presents analytical and numerical investigations of a 3D cylindrical metamaterial shell possessing a cylindrically anisotropic permeability that is excited by a finite-sized electric line source. A comprehensive field analysis of the system reveals that the compact metamaterial shell exhibits resonances akin to those observed in isotropic 2D cylindrical metamaterial structures, which may be used to enhance the radiated power of a nearby antenna. An analytical resonance condition that relates the dimensions of the cylindrical shell to its anisotropic effective-medium parameters is shown to be accurate in predicting the resonances of 2D and 3D metamaterial shells obtained using full-wave simulations. The effects of anisotropy and finite shell/antenna height on the system's near-fields, radiation patterns, and power-ratio enhancements are explored. It is shown through both theory and simulations that the condition for resonance is largely independent of shell/antenna height but that the quality factor reduces dramatically as these heights approach electrically small values. Also, a dispersion and loss analysis assuming Lorentz model is carried out, which indicates that practical metamaterial losses do not significantly degrade the power enhancement. |
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| AbstractList | This paper presents analytical and numerical investigations of a 3D cylindrical metamaterial shell possessing a cylindrically anisotropic permeability that is excited by a finite-sized electric line source. A comprehensive field analysis of the system reveals that the compact metamaterial shell exhibits resonances akin to those observed in isotropic 2D cylindrical metamaterial structures, which may be used to enhance the radiated power of a nearby antenna. An analytical resonance condition that relates the dimensions of the cylindrical shell to its anisotropic effective-medium parameters is shown to be accurate in predicting the resonances of 2D and 3D metamaterial shells obtained using full-wave simulations. The effects of anisotropy and finite shell/antenna height on the system's near-fields, radiation patterns, and power-ratio enhancements are explored. It is shown through both theory and simulations that the condition for resonance is largely independent of shell/antenna height but that the quality factor reduces dramatically as these heights approach electrically small values. Also, a dispersion and loss analysis assuming Lorentz model is carried out, which indicates that practical metamaterial losses do not significantly degrade the power enhancement. |
| Author | Iyer, Ashwin K. Saha, Chinmoy Kumar, R. Aneesh Pollock, Justin G. |
| Author_xml | – sequence: 1 givenname: R. Aneesh orcidid: 0000-0002-9579-686X surname: Kumar fullname: Kumar, R. Aneesh organization: Department of Avionics, Indian Institute of Space Science and Technology, Thiruvananthapuram, India – sequence: 2 givenname: Justin G. orcidid: 0000-0002-6385-3727 surname: Pollock fullname: Pollock, Justin G. organization: KP Performance Antennas Inc., Edmonton, AB, Canada – sequence: 3 givenname: Chinmoy orcidid: 0000-0002-2781-7964 surname: Saha fullname: Saha, Chinmoy email: chinmoy.rpe@gmail.com organization: Department of Avionics, Indian Institute of Space Science and Technology, Thiruvananthapuram, India – sequence: 4 givenname: Ashwin K. orcidid: 0000-0002-5280-4751 surname: Iyer fullname: Iyer, Ashwin K. organization: Electrical and Computer Engineering Department, University of Alberta, Edmonton, AB, Canada |
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| SubjectTerms | Anisotropic Anisotropic magnetoresistance Anisotropy Antenna radiation patterns Antennas Cylindrical shells Dispersion Magnetic materials metamaterial Metamaterials power ratio Q factors radiation enhancement Resonance resonance condtion Tensors Three-dimensional displays Two dimensional displays |
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| Title | Analytical and Numerical Investigation of Radiation Enhancement by Anisotropic Metamaterial Shells |
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