Negative refraction metamaterial with low loss property at millimeter wave spectrum
The design of the millimetre-wave (MMW) metamaterials (MMs) unit cell operates at 28 GHz is presented and numerically investigated. The proposed structure composed of a modified split ring resonator (MSRR) printed on both sides of the substrate layer. Popular MM structures such as S-shape, G-shape,...
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Institute of Electrical and Electronics Engineers Inc. (ieee)
2020
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| Online Access: | http://eprints.uthm.edu.my/6604/ http://doi.org/10.11591/eei.v9i3.1853 |
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| author | Esmail, B. A. F. Saparudin, Faiz Asraf Jusoh, M. Ashyap, Adel Y. I. A. Rahim, M. K. AL-Fadhali, Najib A. Majid, Huda |
| author_facet | Esmail, B. A. F. Saparudin, Faiz Asraf Jusoh, M. Ashyap, Adel Y. I. A. Rahim, M. K. AL-Fadhali, Najib A. Majid, Huda |
| author_sort | Esmail, B. A. F. |
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| collection | Institutional Repository |
| content_provider | Universiti Tun Hussein Onn Malaysia |
| content_source | UTHM Institutional Repository |
| continent | Asia |
| country | Malaysia |
| description | The design of the millimetre-wave (MMW) metamaterials (MMs) unit cell operates at 28 GHz is presented and numerically investigated. The proposed structure composed of a modified split ring resonator (MSRR) printed on both sides of the substrate layer. Popular MM structures such as S-shape, G-shape, and Ω-shape are adjusted to operate at the 28 GHz for comparison purpose. MSRR achieves a wide bandwidth of 1.1 GHz in comparison with its counterparts at the resonance frequency. Moreover, the proposed structure presents very low losses by providing the highest transmission coefficient, S21, at the corresponding frequency region. The radiation loss is substantially suppressed and the negativity of the constitutive parameters of the proposed MM structure is maintained. By applying the principle of the electromagnetically induced transparency (EIT) phenomenon, the MSRR unit cell induces opposite currents on both sides of the substrate which leads to cancelling out the scattering fields and suppresses the radiation loss. The constitutive parameters of the MM structures are retrieved using well-known retrieval algorithm. The proposed structure can be used to enhance the performance of fifth-generation (5G) antenna such as the gain and bandwidth. |
| format | Article |
| id | my.uthm.eprints-6604 |
| institution | Universiti Tun Hussein Onn Malaysia |
| publishDate | 2020 |
| publisher | Institute of Electrical and Electronics Engineers Inc. (ieee) |
| record_format | eprints |
| spelling | my.uthm.eprints-66042022-03-10T02:42:42Z http://eprints.uthm.edu.my/6604/ Negative refraction metamaterial with low loss property at millimeter wave spectrum Esmail, B. A. F. Saparudin, Faiz Asraf Jusoh, M. Ashyap, Adel Y. I. A. Rahim, M. K. AL-Fadhali, Najib A. Majid, Huda TK5101-6720 Telecommunication. Including telegraphy, telephone, radio, radar, television The design of the millimetre-wave (MMW) metamaterials (MMs) unit cell operates at 28 GHz is presented and numerically investigated. The proposed structure composed of a modified split ring resonator (MSRR) printed on both sides of the substrate layer. Popular MM structures such as S-shape, G-shape, and Ω-shape are adjusted to operate at the 28 GHz for comparison purpose. MSRR achieves a wide bandwidth of 1.1 GHz in comparison with its counterparts at the resonance frequency. Moreover, the proposed structure presents very low losses by providing the highest transmission coefficient, S21, at the corresponding frequency region. The radiation loss is substantially suppressed and the negativity of the constitutive parameters of the proposed MM structure is maintained. By applying the principle of the electromagnetically induced transparency (EIT) phenomenon, the MSRR unit cell induces opposite currents on both sides of the substrate which leads to cancelling out the scattering fields and suppresses the radiation loss. The constitutive parameters of the MM structures are retrieved using well-known retrieval algorithm. The proposed structure can be used to enhance the performance of fifth-generation (5G) antenna such as the gain and bandwidth. Institute of Electrical and Electronics Engineers Inc. (ieee) 2020 Article PeerReviewed Esmail, B. A. F. and Saparudin, Faiz Asraf and Jusoh, M. and Ashyap, Adel Y. I. and A. Rahim, M. K. and AL-Fadhali, Najib and A. Majid, Huda (2020) Negative refraction metamaterial with low loss property at millimeter wave spectrum. Bulletin of Electrical Engineering and Informatics, 9 (3). pp. 1038-1853. ISSN 2302-9285 http://doi.org/10.11591/eei.v9i3.1853 |
| spellingShingle | TK5101-6720 Telecommunication. Including telegraphy, telephone, radio, radar, television Esmail, B. A. F. Saparudin, Faiz Asraf Jusoh, M. Ashyap, Adel Y. I. A. Rahim, M. K. AL-Fadhali, Najib A. Majid, Huda Negative refraction metamaterial with low loss property at millimeter wave spectrum |
| title | Negative refraction metamaterial with low loss property at millimeter wave spectrum |
| title_full | Negative refraction metamaterial with low loss property at millimeter wave spectrum |
| title_fullStr | Negative refraction metamaterial with low loss property at millimeter wave spectrum |
| title_full_unstemmed | Negative refraction metamaterial with low loss property at millimeter wave spectrum |
| title_short | Negative refraction metamaterial with low loss property at millimeter wave spectrum |
| title_sort | negative refraction metamaterial with low loss property at millimeter wave spectrum |
| topic | TK5101-6720 Telecommunication. Including telegraphy, telephone, radio, radar, television |
| url | http://eprints.uthm.edu.my/6604/ http://doi.org/10.11591/eei.v9i3.1853 |
| url_provider | http://eprints.uthm.edu.my/ |