A dual ultra-broadband switchable high-performance terahertz absorber based on hybrid graphene and vanadium dioxide

A dual ultra-broadband switchable high-performance terahertz absorber based on hybrid graphene and vanadium dioxide

A tunable dual broadband switchable terahertz absorber based on vanadium dioxide and graphene is proposed. The tunability of graphene and the phase transition properties of vanadium dioxide are used to switch broadband absorption between low-frequency and high-frequency, as well as the absorption ra...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2023-08, Vol.25 (3), p.2414-2421
Hauptverfasser: Chen, Wenya, Li, Chao, Wang, Dong, Gao, Song, Zhang, Chunwei, Guo, Haijun, An, Wei, Guo, Shijing, Wu, Guozheng
Format: Artikel
Sprache:eng
Schlagworte:
Absorbers
Absorptance
Absorption
Absorptivity
Broadband
Electromagnetic shielding
Graphene
Insulation
Phase transitions
Polarization
Terahertz frequencies
Vanadium dioxide
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container_issue 3
container_start_page 2414
container_title Physical chemistry chemical physics : PCCP
container_volume 25
creator Chen, Wenya
Li, Chao
Wang, Dong
Gao, Song
Zhang, Chunwei
Guo, Haijun
An, Wei
Guo, Shijing
Wu, Guozheng
description A tunable dual broadband switchable terahertz absorber based on vanadium dioxide and graphene is proposed. The tunability of graphene and the phase transition properties of vanadium dioxide are used to switch broadband absorption between low-frequency and high-frequency, as well as the absorption rate tuning function. The simulation results indicate that when vanadium dioxide is in the insulating phase and the graphene Fermi energy is 0.7 eV, the absorber achieves low-frequency broadband absorption within the range of 2.6-4.2 THz with an absorptance greater than 90%; when vanadium dioxide is in the metallic phase and the graphene Fermi energy is 0 eV, the absorber achieves high-frequency broadband absorption within the range of 4.9-10 THz with an absorptance greater than 90%. Furthermore, the absorptance can be tuned by adjusting the conductivity of vanadium dioxide or the Fermi energy of graphene. Due to the central symmetry of the proposed structure, the absorber is completely insensitive to polarization. For TE and TM polarized waves, both low and high-frequency broadband absorption are maintained over a range of incident angles from 0° to 50°. The simple structure, tunable absorption rate, insensitivity to polarization angle and incident angle properties are advantages of our proposed absorber. It has broad application prospects in adjustable filters and electromagnetic shielding. A dual ultra-broadband switchable terahertz absorber based on vanadium dioxide and graphene is proposed, and dynamic adjustment of the absorption rate can be achieved.
doi_str_mv 10.1039/d3cp01312j
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The tunability of graphene and the phase transition properties of vanadium dioxide are used to switch broadband absorption between low-frequency and high-frequency, as well as the absorption rate tuning function. The simulation results indicate that when vanadium dioxide is in the insulating phase and the graphene Fermi energy is 0.7 eV, the absorber achieves low-frequency broadband absorption within the range of 2.6-4.2 THz with an absorptance greater than 90%; when vanadium dioxide is in the metallic phase and the graphene Fermi energy is 0 eV, the absorber achieves high-frequency broadband absorption within the range of 4.9-10 THz with an absorptance greater than 90%. Furthermore, the absorptance can be tuned by adjusting the conductivity of vanadium dioxide or the Fermi energy of graphene. Due to the central symmetry of the proposed structure, the absorber is completely insensitive to polarization. For TE and TM polarized waves, both low and high-frequency broadband absorption are maintained over a range of incident angles from 0° to 50°. The simple structure, tunable absorption rate, insensitivity to polarization angle and incident angle properties are advantages of our proposed absorber. It has broad application prospects in adjustable filters and electromagnetic shielding. 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The tunability of graphene and the phase transition properties of vanadium dioxide are used to switch broadband absorption between low-frequency and high-frequency, as well as the absorption rate tuning function. The simulation results indicate that when vanadium dioxide is in the insulating phase and the graphene Fermi energy is 0.7 eV, the absorber achieves low-frequency broadband absorption within the range of 2.6-4.2 THz with an absorptance greater than 90%; when vanadium dioxide is in the metallic phase and the graphene Fermi energy is 0 eV, the absorber achieves high-frequency broadband absorption within the range of 4.9-10 THz with an absorptance greater than 90%. Furthermore, the absorptance can be tuned by adjusting the conductivity of vanadium dioxide or the Fermi energy of graphene. Due to the central symmetry of the proposed structure, the absorber is completely insensitive to polarization. For TE and TM polarized waves, both low and high-frequency broadband absorption are maintained over a range of incident angles from 0° to 50°. The simple structure, tunable absorption rate, insensitivity to polarization angle and incident angle properties are advantages of our proposed absorber. It has broad application prospects in adjustable filters and electromagnetic shielding. A dual ultra-broadband switchable terahertz absorber based on vanadium dioxide and graphene is proposed, and dynamic adjustment of the absorption rate can be achieved.</abstract><cop>England</cop><pub>Royal Society of Chemistry</pub><pmid>37466116</pmid><doi>10.1039/d3cp01312j</doi><tpages>8</tpages><orcidid>https://orcid.org/0000-0003-2616-9165</orcidid><orcidid>https://orcid.org/0000-0002-4437-7702</orcidid><orcidid>https://orcid.org/0000-0001-9410-3040</orcidid></addata></record>
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source Royal Society Of Chemistry Journals; Alma/SFX Local Collection
subjects Absorbers
Absorptance
Absorption
Absorptivity
Broadband
Electromagnetic shielding
Graphene
Insulation
Phase transitions
Polarization
Terahertz frequencies
Vanadium dioxide
title A dual ultra-broadband switchable high-performance terahertz absorber based on hybrid graphene and vanadium dioxide
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