Loss analysis of plasmonic metasurfaces using field-network-joint method
Structured metallic surfaces, also called as plasmonic surfaces, have been proposed to support spoof surface plasmon polariton (SPP) modes, which can mimic natural SPPs at optical frequencies. Complex plasmonic surfaces can provide a large degree of freedom to engineer the characteristics of SPP dis...
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sg-ntu-dr.10356-1516332021-07-01T07:20:55Z Loss analysis of plasmonic metasurfaces using field-network-joint method Zhang, Hao Chi He, Pei Hang Gao, Xinxin Lu, Jiayuan Cui, Tie Jun Luo, Yu School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Field-network Joint Solution Loss Structured metallic surfaces, also called as plasmonic surfaces, have been proposed to support spoof surface plasmon polariton (SPP) modes, which can mimic natural SPPs at optical frequencies. Complex plasmonic surfaces can provide a large degree of freedom to engineer the characteristics of SPP dispersion. However, the analysis of complex plasmonic surfaces is difficult using the existing theoretical methods, such as the effective medium model and mode matching model. Recently, an accurate field-network-joint method has been introduced into the dispersion analysis of complex plasmonic surfaces, but it only works in the lossless case. In this communication, lossy complex plasmonic surfaces are investigated based on the modified field-network-joint method. The proposed method can predict not only the dispersion relationship between the frequency and the wavenumber, but also the lossy feature of the plasmonic surface with high efficiency and accuracy. As an example, a periodic structure with biforked slits filled by a lossy medium is fabricated and measured. The calculated attenuation constant (i.e., the imaginary part of the wavenumber) of the lossy structure is nearly identical to the measured result, demonstrating the superiority of the proposed analytical method. Ministry of Education (MOE) This work was supported in part by the National Science Foundation of China under Grant 61871127, Grant 61701246, Grant 61631007, Grant 61571117, Grant 61501112, Grant61501117, Grant 61522106, Grant 61722106, Grant 61701107, and Grant 61701108, in part by the 111 Project under Grant 111-2-05, in part by the Singapore Ministry of Education Academic Research Fund TIER 1 under Grant 2017-T1-001-239 [RG91/17 (S)], and in part by TIER 2 under Grant MOE2015-T2-1-145. (Corresponding authors: Tie Jun Cui; Yu Luo.) 2021-07-01T07:20:55Z 2021-07-01T07:20:55Z 2019 Journal Article Zhang, H. C., He, P. H., Gao, X., Lu, J., Cui, T. J. & Luo, Y. (2019). Loss analysis of plasmonic metasurfaces using field-network-joint method. IEEE Transactions On Antennas and Propagation, 67(5), 3521-3526. https://dx.doi.org/10.1109/TAP.2019.2901123 0018-926X 0000-0002-9856-5848 0000-0003-0508-1375 0000-0002-5862-1497 0000-0003-2925-682X https://hdl.handle.net/10356/151633 10.1109/TAP.2019.2901123 2-s2.0-85065408819 5 67 3521 3526 en 2017-T1-001-239 [RG91/17 (S)] MOE2015-T2-1-145 IEEE Transactions on Antennas and Propagation © 2019 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Field-network Joint Solution Loss Zhang, Hao Chi He, Pei Hang Gao, Xinxin Lu, Jiayuan Cui, Tie Jun Luo, Yu Loss analysis of plasmonic metasurfaces using field-network-joint method |
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Structured metallic surfaces, also called as plasmonic surfaces, have been proposed to support spoof surface plasmon polariton (SPP) modes, which can mimic natural SPPs at optical frequencies. Complex plasmonic surfaces can provide a large degree of freedom to engineer the characteristics of SPP dispersion. However, the analysis of complex plasmonic surfaces is difficult using the existing theoretical methods, such as the effective medium model and mode matching model. Recently, an accurate field-network-joint method has been introduced into the dispersion analysis of complex plasmonic surfaces, but it only works in the lossless case. In this communication, lossy complex plasmonic surfaces are investigated based on the modified field-network-joint method. The proposed method can predict not only the dispersion relationship between the frequency and the wavenumber, but also the lossy feature of the plasmonic surface with high efficiency and accuracy. As an example, a periodic structure with biforked slits filled by a lossy medium is fabricated and measured. The calculated attenuation constant (i.e., the imaginary part of the wavenumber) of the lossy structure is nearly identical to the measured result, demonstrating the superiority of the proposed analytical method. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhang, Hao Chi He, Pei Hang Gao, Xinxin Lu, Jiayuan Cui, Tie Jun Luo, Yu |
| format |
Article |
| author |
Zhang, Hao Chi He, Pei Hang Gao, Xinxin Lu, Jiayuan Cui, Tie Jun Luo, Yu |
| author_sort |
Zhang, Hao Chi |
| title |
Loss analysis of plasmonic metasurfaces using field-network-joint method |
| title_short |
Loss analysis of plasmonic metasurfaces using field-network-joint method |
| title_full |
Loss analysis of plasmonic metasurfaces using field-network-joint method |
| title_fullStr |
Loss analysis of plasmonic metasurfaces using field-network-joint method |
| title_full_unstemmed |
Loss analysis of plasmonic metasurfaces using field-network-joint method |
| title_sort |
loss analysis of plasmonic metasurfaces using field-network-joint method |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151633 |
| _version_ |
1705151326369873920 |