Dielectric Constant Estimation of a Carbon Nanotube Layer on the Dielectric Rod Waveguide at Millimeter Wavelengths
A method has been developed to estimate dielectric properties of a layer containing carbon nanotubes (CNTs) randomly arranged in plane, deposited on a dielectric rod waveguide (DRW). In the framework of this method, a theoretical model of a layered DRW with extended narrow walls and perfect electric...
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| Published in | IEEE transactions on microwave theory and techniques Vol. 63; no. 10; pp. 3265 - 3271 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.10.2015
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Abstract | A method has been developed to estimate dielectric properties of a layer containing carbon nanotubes (CNTs) randomly arranged in plane, deposited on a dielectric rod waveguide (DRW). In the framework of this method, a theoretical model of a layered DRW with extended narrow walls and perfect electric conductor walls was used to fit the experimental results. The experimental results were obtained by measuring the wave propagation characteristics ( S11 and S21) of a DRW unloaded and loaded with different CNT layers at 75-110 GHz. The developed model allows derivation of the dispersion equation of the wave excited in the loaded DRW in an analytical form. The propagation constant is then found numerically through the fitting process with measurement results. Additionally, the complex permittivity of the CNT layer can be estimated using the surface conductivity model of the CNT and mixing formulas. Both methods give reasonable and comparable results. The obtained results (ε = 1- j5×10 3 ) allow full-wave simulation (e.g., HFSS) of DRW structures loaded with CNT layers with a thickness of 60 nm or more. Simulation and measurement results agree rather well. |
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| AbstractList | A method has been developed to estimate dielectric properties of a layer containing carbon nanotubes (CNTs) randomly arranged in plane, deposited on a dielectric rod waveguide (DRW). In the framework of this method, a theoretical model of a layered DRW with extended narrow walls and perfect electric conductor walls was used to fit the experimental results. The experimental results were obtained by measuring the wave propagation characteristics ([Formula Omitted] and [Formula Omitted]) of a DRW unloaded and loaded with different CNT layers at 75-110 GHz. The developed model allows derivation of the dispersion equation of the wave excited in the loaded DRW in an analytical form. The propagation constant is then found numerically through the fitting process with measurement results. Additionally, the complex permittivity of the CNT layer can be estimated using the surface conductivity model of the CNT and mixing formulas. Both methods give reasonable and comparable results. The obtained results [Formula Omitted] allow full-wave simulation (e.g., HFSS) of DRW structures loaded with CNT layers with a thickness of 60 nm or more. Simulation and measurement results agree rather well. A method has been developed to estimate dielectric properties of a layer containing carbon nanotubes (CNTs) randomly arranged in plane, deposited on a dielectric rod waveguide (DRW). In the framework of this method, a theoretical model of a layered DRW with extended narrow walls and perfect electric conductor walls was used to fit the experimental results. The experimental results were obtained by measuring the wave propagation characteristics ( S11 and S21) of a DRW unloaded and loaded with different CNT layers at 75-110 GHz. The developed model allows derivation of the dispersion equation of the wave excited in the loaded DRW in an analytical form. The propagation constant is then found numerically through the fitting process with measurement results. Additionally, the complex permittivity of the CNT layer can be estimated using the surface conductivity model of the CNT and mixing formulas. Both methods give reasonable and comparable results. The obtained results (ε = 1- j5×10 3 ) allow full-wave simulation (e.g., HFSS) of DRW structures loaded with CNT layers with a thickness of 60 nm or more. Simulation and measurement results agree rather well. |
| Author | Nefedov, Igor S. Nefedova, Irina I. Lioubtchenko, Dmitry V. Raisanen, Antti V. |
| Author_xml | – sequence: 1 givenname: Irina I. surname: Nefedova fullname: Nefedova, Irina I. email: irina.nefedova@aalto.fi organization: Sch. of Electr. Eng., Dept. of Radio Sci. & Eng., Aalto Univ., Aalto, Finland – sequence: 2 givenname: Dmitry V. surname: Lioubtchenko fullname: Lioubtchenko, Dmitry V. organization: Sch. of Electr. Eng., Dept. of Radio Sci. & Eng., Aalto Univ., Aalto, Finland – sequence: 3 givenname: Igor S. surname: Nefedov fullname: Nefedov, Igor S. organization: Sch. of Electr. Eng., Dept. of Radio Sci. & Eng., Aalto Univ., Aalto, Finland – sequence: 4 givenname: Antti V. surname: Raisanen fullname: Raisanen, Antti V. organization: Sch. of Electr. Eng., Dept. of Radio Sci. & Eng., Aalto Univ., Aalto, Finland |
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| CitedBy_id | crossref_primary_10_1109_TMTT_2022_3143827 crossref_primary_10_1016_j_carbon_2017_02_019 crossref_primary_10_1109_TTHZ_2016_2602548 crossref_primary_10_1017_S1759078722000162 crossref_primary_10_1021_acsami_8b03983 crossref_primary_10_1002_mop_31326 crossref_primary_10_1109_TAP_2016_2633947 |
| Cites_doi | 10.1021/nl0498740 10.1117/1.3574402 10.1109/TAP.2009.2016687 10.1117/12.568159 10.1103/RevModPhys.79.677 10.1016/j.photonics.2011.04.005 10.1002/j.1538-7305.1969.tb01168.x 10.1109/ICEAA.2013.6632407 10.1002/j.1538-7305.1969.tb01166.x 10.1103/PhysRevLett.78.4289 10.1063/1.4759374 10.1109/TNANO.2009.2034262 10.1515/FREQ.2005.59.11-12.251 10.1049/PBEW047E 10.1021/nn200338r 10.1103/PhysRevB.81.205423 10.1109/LMWC.2004.840946 10.1109/SiRF.2012.6160169 10.1063/1.2857468 10.1109/IITC.2007.382389 10.1021/nl900815s 10.1103/PhysRevB.60.17136 10.1109/TAP.2005.858865 |
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| SubjectTerms | Carbon nanotubes (CNTs) Conductivity Dielectric constant Dielectric properties dielectric rod waveguide (DRW) Load modeling Mathematical model millimeter (mm) waves Optical waveguides Permittivity |
| Title | Dielectric Constant Estimation of a Carbon Nanotube Layer on the Dielectric Rod Waveguide at Millimeter Wavelengths |
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