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Journal of Electromagnetic Waves and Applications Volume 33, 2019 - Issue 4
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Articles

Optical extinction efficiencies for metallic single wall carbon nanotubes in the infrared spectral region

Sharhabeel AlyonesPhysics Department, New Mexico State University, Las Cruces, NM, USA;Physics Department, The Hashemite University, Zarqa, JordanCorrespondence[email protected]
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,
Michael GranadoPhysics Department, New Mexico State University, Las Cruces, NM, USAView further author information
&
Charles. W. BrucePhysics Department, New Mexico State University, Las Cruces, NM, USAView further author information
Pages 465-473 | Received 25 May 2018, Accepted 30 Nov 2018, Published online: 13 Dec 2018

References

  • Waterman PC. Scattering, absorption and extinction by thin fibers. J Opt Soc Am A. 2005;22:2430–2441. doi: 10.1364/JOSAA.22.002430
  • Alyones S, Bruce CW, Buin AK. Numerical methods for solving the problem of electromagnetic scattering by a thin finite conducting wire. IEEE Trans Antennas Propag. 2007;55:1856–1861. doi: 10.1109/TAP.2007.898579
  • Alyones S, Bruce CW. Electromagnetic scattering by finite conducting fiber: Limitation of a previous published code. J Electromagn Waves Appl. 2011;25:1021–1030. doi: 10.1163/156939311795253948
  • Alyones S, Bruce CW. Electromagnetic scattering and absorption by randomly oriented fibers. J Opt Soc Am A. 2015;32:1101. doi: 10.1364/JOSAA.32.001101
  • Bruce CW, Alyones S. Extinction efficiencies for metallic fibers in the infrared. Appl Opt. 2009;48:5095–5098. doi: 10.1364/AO.48.005095
  • Bruce CW, Alyones S. Visible and infrared optical properties of stacked cone graphite microtubes. Appl Opt. 2012;51:3250–3257. doi: 10.1364/AO.51.003250
  • Bruce CW, Jelinek AV, Wu S, et al. Millimeter-wavelength investigation of fibrous aerosol absorption and scattering properties. Appl Opt. 2004;43:6648–6655. doi: 10.1364/AO.43.006648
  • Gurton KP, Bruce CW. Parametric study of the absorption cross section for a moderately conducting thin cylinder. Appl Opt. 1995;34:2822–2828. doi: 10.1364/AO.34.002822
  • Gurton KP, Bruce CW. Measured backscatter from conductive thin films deposited on fibrous substrates. IEEE Trans Antennas Propag. 1998;46:1674–1678. doi: 10.1109/8.736620
  • Jelinek AV, Bruce CW. Extinction spectra of high conductivity fibrous aerosols. J Appl Phys. 1995;78:2675–2678. doi: 10.1063/1.360129
  • Hart M, Bruce CW. Backscatter measurements of thin nickel-coated graphite fibers. IEEE Trans Antennas Propag. 2000;48:842–843. doi: 10.1109/8.855506
  • Fischer JE, Dai H, Thess A, et al. Metallic resistivity in crystalline ropes of single-wall carbon nanotubes. Phys Rev B. 1997;55:8. doi: 10.1103/PhysRevB.55.13575
  • Antonio Maffucci, Sergey A. Maksimnko, GiovannI Miano, and Gregory Ya. Slepyan, Electrical conductivity of carbon nanotubes: Modeling and characterization, short title: CNT electrical conductivity, Springer International Publishing Switzerland 2017, A. Todri-Sanial et al. (eds.), Carbon Nanotubes for Interconnects.
  • Zhang Q, Erik H, Jin HZ, et al. Plasmonic Nature of the Terahertz conductivity peak in single-wall carbon nanotubes. Nano Lett. 2013;13:5991–5996. doi: 10.1021/nl403175g
  • Laurent C, Flahaut E, Peigney A. The weight and density of carbon nanotubes versus the number of walls and diameter. Carbon N Y. 2010;48:2994–2996. doi: 10.1016/j.carbon.2010.04.010
  • Alyones S, Bruce CW. Curved fiber scattering. Progr Electromagn Res. 2011;17:225–236. doi: 10.2528/PIERM11011005
  • Ordal MA, Long LL, Bell RJ, et al. Optical properties of the metals Al, Co, Cu, Au, Fe, Pb, Ni, Pd, Pt, Ag, Ti, and W in the infrared and far infrared. Appl Opt. 1983;22:1099. doi: 10.1364/AO.22.001099

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