Electronic control of directional properties of reconfigurable plasmonic graphene-based antenna arrays with frequency scanning in the mid-IR range
Background. Mid-IR antennas can play a critical role in advancing discoveries and innovations for applications such as IR wireless communications, imaging and visualization, remote sensing including environmental and biological, remote sensing, security scanning, biomedical applications and astro...
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| Format: | Article |
| Language: | English |
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Penza State University Publishing House
2024-12-01
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| Series: | Известия высших учебных заведений. Поволжский регион: Физико-математические науки |
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| author | G.S. Makeeva |
| author_facet | G.S. Makeeva |
| author_sort | G.S. Makeeva |
| collection | DOAJ |
| description | Background. Mid-IR antennas can play a critical role in advancing discoveries
and innovations for applications such as IR wireless communications, imaging and visualization,
remote sensing including environmental and biological, remote sensing, security
scanning, biomedical applications and astronomy, IoT (Internet of Things) and sensors. The
purpose of the work is to study using the CST MWS 2023 software package the electronic
control of the directional properties of reconfigurable plasmonic graphene antenna arrays,
i.e. the main beam of the radiation pattern (RP), by using electrical frequency tunability by
changing the chemical potential of graphene (by applying an external electric field), scanning
the RP and changing the shape and parameters of the RP in the mid-IR range. Materials
and methods. In the mid-IR range graphene exhibits plasmonic-like complex surface
conductivity with low losses, which provides great potential for the development of tunable
antenna arrays in this range. Research on the application of surface plasmon polaritons
(SPPs) in graphene is focused on the ranges from THz to mid-IR, since current technologies
allow reducing the width of graphene nanoribbons only to such an extent that they can excite
plasmonic oscillations in the mid-IR range. To solve the electrodynamic problem using
the CST MWS 2023 program, designed for numerical modeling of high-frequency antennas
and devices, the Perfect Boundary Approximation (PBA) method is used, complementing
the Finite Integration Technique (FIT) method, which works in the time domain. Results.
The results of electrodynamic modeling of the controllability of the RP of plasmonic graphene
antenna arrays with different numbers of emitters and electronic frequency scanning
at the resonant frequencies of the fundamental SPP mode in the mid-IR range were obtained
with a change in the value of the chemical potential μc (0.3 - 1 eV) and their dependence
on the geometric dimensions of the graphene elements and the antenna array periods.
Conclusions. As a result of electrodynamic modeling, the possibility of effective electronic
control of RP of the plasmonic graphene antenna arrays in the scanning regime in the mid-
IR range with a change in the chemical potential of graphene (μс = 0.3 - 1 eV) is shown: a
change in the direction of the main lobe of the RP, while the achievable sector of the scanning
angles confirms the efficiency of beam control; a decrease in the width of the RP at the
half-power level and the level of side lobes; an increase in the radiation efficiency and, as a
consequence, an increase in the gain. |
| format | Article |
| id | doaj-art-2bfa564ecc634822b64307d9acb1d93f |
| institution | Kabale University |
| issn | 2072-3040 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | Penza State University Publishing House |
| record_format | Article |
| series | Известия высших учебных заведений. Поволжский регион: Физико-математические науки |
| spelling | doaj-art-2bfa564ecc634822b64307d9acb1d93f2024-12-11T10:20:45ZengPenza State University Publishing HouseИзвестия высших учебных заведений. Поволжский регион: Физико-математические науки2072-30402024-12-01310.21685/2072-3040-2024-3-8Electronic control of directional properties of reconfigurable plasmonic graphene-based antenna arrays with frequency scanning in the mid-IR rangeG.S. Makeeva0Penza State UniversityBackground. Mid-IR antennas can play a critical role in advancing discoveries and innovations for applications such as IR wireless communications, imaging and visualization, remote sensing including environmental and biological, remote sensing, security scanning, biomedical applications and astronomy, IoT (Internet of Things) and sensors. The purpose of the work is to study using the CST MWS 2023 software package the electronic control of the directional properties of reconfigurable plasmonic graphene antenna arrays, i.e. the main beam of the radiation pattern (RP), by using electrical frequency tunability by changing the chemical potential of graphene (by applying an external electric field), scanning the RP and changing the shape and parameters of the RP in the mid-IR range. Materials and methods. In the mid-IR range graphene exhibits plasmonic-like complex surface conductivity with low losses, which provides great potential for the development of tunable antenna arrays in this range. Research on the application of surface plasmon polaritons (SPPs) in graphene is focused on the ranges from THz to mid-IR, since current technologies allow reducing the width of graphene nanoribbons only to such an extent that they can excite plasmonic oscillations in the mid-IR range. To solve the electrodynamic problem using the CST MWS 2023 program, designed for numerical modeling of high-frequency antennas and devices, the Perfect Boundary Approximation (PBA) method is used, complementing the Finite Integration Technique (FIT) method, which works in the time domain. Results. The results of electrodynamic modeling of the controllability of the RP of plasmonic graphene antenna arrays with different numbers of emitters and electronic frequency scanning at the resonant frequencies of the fundamental SPP mode in the mid-IR range were obtained with a change in the value of the chemical potential μc (0.3 - 1 eV) and their dependence on the geometric dimensions of the graphene elements and the antenna array periods. Conclusions. As a result of electrodynamic modeling, the possibility of effective electronic control of RP of the plasmonic graphene antenna arrays in the scanning regime in the mid- IR range with a change in the chemical potential of graphene (μс = 0.3 - 1 eV) is shown: a change in the direction of the main lobe of the RP, while the achievable sector of the scanning angles confirms the efficiency of beam control; a decrease in the width of the RP at the half-power level and the level of side lobes; an increase in the radiation efficiency and, as a consequence, an increase in the gain.plasmonic graphene antenna arraymid-infrared rangesurface plasmon polaritonsradiation pattern |
| spellingShingle | G.S. Makeeva Electronic control of directional properties of reconfigurable plasmonic graphene-based antenna arrays with frequency scanning in the mid-IR range Известия высших учебных заведений. Поволжский регион: Физико-математические науки plasmonic graphene antenna array mid-infrared range surface plasmon polaritons radiation pattern |
| title | Electronic control of directional properties of reconfigurable plasmonic graphene-based antenna arrays with frequency scanning in the mid-IR range |
| title_full | Electronic control of directional properties of reconfigurable plasmonic graphene-based antenna arrays with frequency scanning in the mid-IR range |
| title_fullStr | Electronic control of directional properties of reconfigurable plasmonic graphene-based antenna arrays with frequency scanning in the mid-IR range |
| title_full_unstemmed | Electronic control of directional properties of reconfigurable plasmonic graphene-based antenna arrays with frequency scanning in the mid-IR range |
| title_short | Electronic control of directional properties of reconfigurable plasmonic graphene-based antenna arrays with frequency scanning in the mid-IR range |
| title_sort | electronic control of directional properties of reconfigurable plasmonic graphene based antenna arrays with frequency scanning in the mid ir range |
| topic | plasmonic graphene antenna array mid-infrared range surface plasmon polaritons radiation pattern |
| work_keys_str_mv | AT gsmakeeva electroniccontrolofdirectionalpropertiesofreconfigurableplasmonicgraphenebasedantennaarrayswithfrequencyscanninginthemidirrange |