Decoupling of Two Closely Located Dipoles Using Metasurfaces of Resonant Dipoles and Split-Loop Resonators

M. S.M. Mollaei; A. Hurshkainen; S. Kurdjumov; S. Glybovski; C. Simovski

doi:10.1109/MetaMaterials.2018.8534082

Decoupling of Two Closely Located Dipoles Using Metasurfaces of Resonant Dipoles and Split-Loop Resonators

M. S.M. Mollaei, A. Hurshkainen, S. Kurdjumov, S. Glybovski, C. Simovski

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Scientific › peer-review

Abstract

We present numerical and experimental validations of decoupling between two very closely located dipole antennas using metasurfaces. Compared to decoupling by a single passive scatterer, decoupling by metasurfaces reduces negative effects over the radiated signal. Simulation and measurement results demonstrate the possibility of decoupling between two active dipoles using metasurfaces of passive dipoles and split-loop resonators (SLRs).

Original language	English
Title of host publication	2018 12th International Congress on Artificial Materials for Novel Wave Phenomena, METAMATERIALS 2018
Publisher	IEEE
Pages	355-357
Number of pages	3
ISBN (Electronic)	9781538647028
DOIs	https://doi.org/10.1109/MetaMaterials.2018.8534082
Publication status	Published - 13 Nov 2018
MoE publication type	A4 Article in a conference publication
Event	International Congress on Artificial Materials for Novel Wave Phenomena - Espoo, Finland Duration: 27 Aug 2018 → 1 Sep 2018 Conference number: 12

Conference

Conference	International Congress on Artificial Materials for Novel Wave Phenomena
Abbreviated title	METAMATERIALS
Country	Finland
City	Espoo
Period	27/08/2018 → 01/09/2018

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10.1109/MetaMaterials.2018.8534082

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Mollaei, M. S. M., Hurshkainen, A., Kurdjumov, S., Glybovski, S., & Simovski, C. (2018). Decoupling of Two Closely Located Dipoles Using Metasurfaces of Resonant Dipoles and Split-Loop Resonators. In 2018 12th International Congress on Artificial Materials for Novel Wave Phenomena, METAMATERIALS 2018 (pp. 355-357). [8534082] IEEE. https://doi.org/10.1109/MetaMaterials.2018.8534082

@inproceedings{1452d1f20f1d4c4aa21aa58386fcaf7d,

title = "Decoupling of Two Closely Located Dipoles Using Metasurfaces of Resonant Dipoles and Split-Loop Resonators",

abstract = "We present numerical and experimental validations of decoupling between two very closely located dipole antennas using metasurfaces. Compared to decoupling by a single passive scatterer, decoupling by metasurfaces reduces negative effects over the radiated signal. Simulation and measurement results demonstrate the possibility of decoupling between two active dipoles using metasurfaces of passive dipoles and split-loop resonators (SLRs).",

author = "Mollaei, {M. S.M.} and A. Hurshkainen and S. Kurdjumov and S. Glybovski and C. Simovski",

year = "2018",

month = nov,

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doi = "10.1109/MetaMaterials.2018.8534082",

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pages = "355--357",

booktitle = "2018 12th International Congress on Artificial Materials for Novel Wave Phenomena, METAMATERIALS 2018",

publisher = "IEEE",

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note = "International Congress on Artificial Materials for Novel Wave Phenomena, METAMATERIALS ; Conference date: 27-08-2018 Through 01-09-2018",

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Mollaei, MSM, Hurshkainen, A, Kurdjumov, S, Glybovski, S & Simovski, C 2018, Decoupling of Two Closely Located Dipoles Using Metasurfaces of Resonant Dipoles and Split-Loop Resonators. in 2018 12th International Congress on Artificial Materials for Novel Wave Phenomena, METAMATERIALS 2018., 8534082, IEEE, pp. 355-357, International Congress on Artificial Materials for Novel Wave Phenomena, Espoo, Finland, 27/08/2018. https://doi.org/10.1109/MetaMaterials.2018.8534082

Decoupling of Two Closely Located Dipoles Using Metasurfaces of Resonant Dipoles and Split-Loop Resonators. / Mollaei, M. S.M.; Hurshkainen, A.; Kurdjumov, S.; Glybovski, S.; Simovski, C.

2018 12th International Congress on Artificial Materials for Novel Wave Phenomena, METAMATERIALS 2018. IEEE, 2018. p. 355-357 8534082.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Scientific › peer-review

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