Experimental and theoretical studies of optic – near-IR antennas based on ZnO-nanorod arrays with Ag-film covering

Authors

  • E. M. Kaidashev Southern Federal University, Russian Federation
  • N. V. Lyanguzov Southern Federal University, Russian Federation
  • Aleksander M. Lerer Southern Federal University, Russian Federation
  • E. A. Raspopova Southern Federal University, Russian Federation

DOI:

https://doi.org/10.1109/ICATT.2013.6650718

Abstract

The novel optic antenna circuit was proposed. One is based on ZnO-nanorod array with metal covering film. The arrays of vertically aligned ZnO-nanorod arrays were experimentally fabricated via carbon-thermal reduction process and were covered with Ag-films by means of magnetron sputtering. A task for electromagnetic waves diffraction was solved for the case of single metal-dielectric nano-oscillator as well as for of nano-oscillators (for nano-oscillators array) located at the dielectric-dielectric interface. The experimental results were compared with theoretical one from the view of extinction coefficient for the antennas based on Ag-covered ZnO-nanorod arrays with different length.

References

OSGOOD, R.; CARLSON, J.B.; KIMBALL, B.R.; ZIEGLER, D.P.; WELCH, J.R.; BELTON, L.E.; FERNANDES, G.E.; LIU, Z.; XU, Z. Proc. of SPIE, 2009, n.7394, p.1L-1.

MLINAR, V. Nanotechnology, 2013, n.24, p.042001.

MIKOVSKY, N.M.; CUTLER, P.H.; MAYER, P.H.; WEISS, B.L.; WILLIS, B.; SULLIVAN, T.E.; LERNER, P.B. J. Nanotechnology, 2012, ID 512379.

LYVERS, D.P.; MOON, J.M.; KILDISHEV, A.V.; SHALAEV, V.M.; WEI, A. ACS NANO, 2008, n.2, p.2569.

IMAFIDON, O.; GEORGAKOPOULOS, VABBINA Ph.K.; PALA, N. Proc. SPIE, 2010, n.5, p.7679.

SALOMON, L.; GRILLOT, F.; ZAYATS, A.V.; FORNEL, F. Phys. Rev. Lett., 2001, n.86, p.1110, doi: http://dx.doi.org/10.1103/PhysRevLett.86.1110.

GARCA-VIDAL, F.J.; SANCHEZ-DEHESA, J.; DECHELETTE, A.; ET AL. J. Lightwave Technology, 1999, v.17, p.2191.

KLIMOV, V.V. Nanoplasmonika. Mocsow: Fizmatlit, 2009, 480 p. [in Russian].

MARTIN-MORENO, L.; GARCIA-VIDAL, F.J.; LEZEC, H.J.; ET AL. Phys. Rev. Lett., 2001, v.86, p.1114, doi: http://dx.doi.org/10.1103/PhysRevLett.86.1114.

HARRIES, M.D.; SUMMERS, H.D. IEEE Photonics Technology Lett., 2006, v.18, p.2197.

ZHMAKIN, A.I. Phys. Reports, 2011, v.498, p.189.

DINTINGER, J.; ROBEL, I.; KAMAT, P.V.; ET AL. Adv. Materials, 2006, n.18, p.1645.

PADILLA, W.J.; TAYLOR, A.J.; HIGHSTRETE, C.; ET AL. Phys. Rev. Lett., 2006, n.96, p.107401.

GOLOVACHEVA, E.V.; LERER, A.M.; PARKHOMENKO, N.G. Vestnik MU, 2011, v.3, n.1, p.6.

GOLOVACHEVA, E.V.; LERER, A.M.; MAKHNO, P.V.; SIN'AVSKIY, G.P. Elektromagnitnye Volny I Elektronnye Sistemy, 2011, v.16, n.5, p.9.

LERER, A.M. Radiotekhnika i Elektronika, 2012, v.57, n.11, p.1160.

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ICATT 2013 cover

Published

2014-02-19

Issue

2013: ICATT’2013 - Proc. of IX Int. Conf. on Antenna Theory and Techniques

Section

General antenna theory