Plasmonic properties of graphene-based nanostructures in terahertz waves
We theoretically study the plasmonic properties of graphene on bulk substrates and graphene-coated nanoparticles. The surface plasmons of such systems are strongly dependent on bandgap and Fermi level of graphene that can be tunable by applying external fields or doping. An increase of bandgap prohi...
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2017
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oai:112.137.131.14:VNU_123-581682018-08-24T03:11:59Z Plasmonic properties of graphene-based nanostructures in terahertz waves Do, T. Nga Do, C. Nghia Chu, V. Ha Plasmonic Graphene Optical properties Nanoparticles Absorption We theoretically study the plasmonic properties of graphene on bulk substrates and graphene-coated nanoparticles. The surface plasmons of such systems are strongly dependent on bandgap and Fermi level of graphene that can be tunable by applying external fields or doping. An increase of bandgap prohibits the surface plasmon resonance for GHz and THz frequency regime. While increasing the Fermi level enhances the absorption of the graphene-based nanostructures in these regions of wifi-waves. Some mechanisms for electric-wifi-signal energy conversion devices are proposed. Our results have a good agreement with experimental studies and can pave the way for designing state-of-the-art electric graphene-integrated nanodevices that operate in GHzeTHz radiation 2017-08-24T03:13:34Z 2017-08-24T03:13:34Z 2017 Article Do, T. N., Do, C. N., Chu, V. H. (2017). Plasmonic properties of graphene-based nanostructures in terahertz waves. Journal of Science, Advanced Materials and Devices, 30, 1-7 2468-2284 http://repository.vnu.edu.vn/handle/VNU_123/58168 en Journal of Advanced Materials and Devices application/pdf H. : ĐHQGHN |
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English |
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Plasmonic Graphene Optical properties Nanoparticles Absorption |
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Plasmonic Graphene Optical properties Nanoparticles Absorption Do, T. Nga Do, C. Nghia Chu, V. Ha Plasmonic properties of graphene-based nanostructures in terahertz waves |
| description |
We theoretically study the plasmonic properties of graphene on bulk substrates and graphene-coated nanoparticles. The surface plasmons of such systems are strongly dependent on bandgap and Fermi level of graphene that can be tunable by applying external fields or doping. An increase of bandgap prohibits the surface plasmon resonance for GHz and THz frequency regime. While increasing the Fermi level enhances the absorption of the graphene-based nanostructures in these regions of wifi-waves. Some mechanisms for electric-wifi-signal energy conversion devices are proposed. Our results have a good agreement with experimental studies and can pave the way for designing state-of-the-art electric graphene-integrated nanodevices that operate in GHzeTHz radiation |
| format |
Article |
| author |
Do, T. Nga Do, C. Nghia Chu, V. Ha |
| author_facet |
Do, T. Nga Do, C. Nghia Chu, V. Ha |
| author_sort |
Do, T. Nga |
| title |
Plasmonic properties of graphene-based nanostructures in terahertz waves |
| title_short |
Plasmonic properties of graphene-based nanostructures in terahertz waves |
| title_full |
Plasmonic properties of graphene-based nanostructures in terahertz waves |
| title_fullStr |
Plasmonic properties of graphene-based nanostructures in terahertz waves |
| title_full_unstemmed |
Plasmonic properties of graphene-based nanostructures in terahertz waves |
| title_sort |
plasmonic properties of graphene-based nanostructures in terahertz waves |
| publisher |
H. : ĐHQGHN |
| publishDate |
2017 |
| url |
http://repository.vnu.edu.vn/handle/VNU_123/58168 |
| _version_ |
1680963262652350464 |