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Optical and Quantum Electronics

Erschienen in:

01.11.2019

Radiation pattern direction control in nano-antenna (tunable nano-antenna)

verfasst von: A. Beheshti Asl, A. Rostami, I. S. Amiri

Erschienen in: Optical and Quantum Electronics | Ausgabe 11/2019

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Abstract

Radiation pattern direction control is one of the most important capabilities of nanoantennas required in optical wireless nano-link for emitting into or detecting from the desired direction. In this work, a novel triangle nanoantenna operating in the near-infrared region is proposed in which the angle of maximum power emission is tuned via rotating one of the triangles and fixing the remaining ones. The advantage of this theme is the result of using piezoelectricity to tune the gap between nano-particles in a nano-antenna and also the possibility of tuning the angle of the pattern up to 25°. By adding a nano-particle to the structure and varying its location, the radiation pattern can be rotated in the desired angle.

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Afridi, A., Kocabas, S.E.: Beam steering and impedance matching of plasmonic horn nano-antennas. Opt. Express 24(22), 25647–25652 (2016)ADSCrossRef

Agio, M., Alù, A.: Optical Antennas. Cambridge University Press, Cambridge (2013)

Alù, A., Engheta, N.: Enhanced directivity from subwavelength infrared/optical nano-antennas loaded with plasmonic materials or metamaterials. IEEE Trans. Antennas Propag. 55(11), 3027–3039 (2007)ADSCrossRef

Alù, A., Engheta, N.: Wireless at the nanoscale: optical interconnects using matched nanoantennas. Phys. Rev. Lett. 104(21), 2139021–2139024 (2010)CrossRef

Atwater, H.A., Polman, A.: Plasmonics for improved photovoltaic devices. Nat. Mater. 9, 205–213 (2010)ADSCrossRef

Bahari, B., Tellez-Limon, R., Kante, B.: Directive and enhanced spontaneous emission using shifted cubes nano-antenna. J. Appl. Phys. 120, 093106 (2016)ADSCrossRef

Balanis, C.A.: Antenna Theory: Analysis and Design. Wiley, Hoboken (1982)

Baranov, D.G., Makarov, S., Belov, P.A., Krasnok, A.: Tuning of near- and far-field properties of all-dielectric dimer nano-antennas via ultrafast electron-hole plasma photoexcitation. Laser Photonics Rev. 10(6), 1009–1015 (2016)ADSCrossRef

Bar-Lev, D., Scheuer, J.: Efficient second-harmonic generation using nonlinear substrates patterned by nano-antenna arrays. Opt. Express 21(24), 29165–29178 (2013)ADSCrossRef

Belov, P.A., Krasnok, A.E., Filonov, D.S.: Superdirective all-dielectric nano-antennas: theory and experiment. In: IOP Conference Series: Materials Science and Engineering, vol. 67 (2014)CrossRef

Clemens, M., Weiland, T.: Discrete electromagnetism with finite integration technique. Prog. Electromagn. Res. 32, 65–87 (2001)CrossRef

Cubukcu, E., Kort, E.A., Crozier, K.B., Capasso, F.: Plasmonic laser antenna. Appl. Phys. Lett. 89, 093120 (2006)ADSCrossRef

da Costa, K.Q., Dmitriev, V.A.: Analysis of modified bowtie nano-antennas in the excitation and emission regimes. J. Microw. Optoelectron. Electromagn. Appl. 10(1), 232–242 (2011)CrossRef

de Arquer, F.P.G., Volski, V., Verellen, N., Vandenbosch, G.A.E., Moshchalkov, V.V.: Engineering the input impedance of optical nano dipole antennas: materials, geometry and excitation effect. IEEE Trans. Antennas Propag. 59(9), 3144–3153 (2011)ADSCrossRef

DeRose, C.T., Kekatpure, R.D., Trotter, D.C., Starbuck, A., Wendt, J.R., Yaacobi, A., Watts, M.R., Chettiar, U., Engheta, N., Davids, P.S.: Electronically controlled optical beam-steering by an active phased array of metallic nano-antennas. Opt. Express 21(4), 5198–5208 (2013)ADSCrossRef

DeWilde, Y., et al.: Thermal radiation scanning tunneling microscopy. Nature 444, 740 (2006)ADSCrossRef

Dorfmuller, J., Dregely, D., Esslinger, M., Khunsin, W., Vogelgesang, R., Kern, K., Giessen, H.: Near-field dynamics of optical Yagi–Uda nano-antennas. Nano Lett. 11, 2819–2824 (2011)ADSCrossRef

Dregely, D., Taubert, R., Dorfmüller, J., Vogelgesang, R., Kern, K., Giessen, H.: 3D optical Yagi–Uda nano-antenna array. Nat. Commun. 2, 267 (2011)ADSCrossRef

Ghanim, A.M., Hussein, M., Hameed, M.F.O., Yahia, A., Obayya, S.S.: Highly directive hybrid Yagi–Uda nano-antenna for radiation emission enhancement. IEEE Photonics J. 8(5), 1–12 (2016)CrossRef

Giessen, H., Lippitz, M.: Directing light emission from quantum dots. Science 329, 910–911 (2012)ADSCrossRef

Greffet, J.-J.: Nano-antennas for light emission. Science 308(5728), 1561–1563 (2005)CrossRef

Hofmann, H.F., Kosako, T., Kadoya, Y.: Design parameters for a nano-optical Yagi–Uda antenna. IOP Sci. 9, 217 (2007)

Krasnok, A.E., Miroshnichenko, A.E., Belov, P.A., Kivshar, Y.S.: All-dielectric optical nano-antennas. Opt. Express 20(18), 20599–20604 (2012)ADSCrossRef

Liaw, J.-W.: Analysis of a Bowtie nano-antenna for the enhancement of spontaneous emission. IEEE J. Sel. Top. Quantum Electron. 14(6), 1441–1447 (2008)ADSCrossRef

Merlo, J.M., Nesbitt, N.T., Calm, Y.M., Rose, A.H., D’Imperio, L., Yang, C., Naughton, J.R., Burns, M.J., Kempa, K., Naughton, M.J.: Wireless communication via nanoscale plasmonic antenna. Sci. Rep. 6, 317101–317108 (2016)CrossRef

Munárriz, J., Malyshev, A.V., Malyshev, V.A., Knoester, J.: Optical nano-antennas with tunable radiation patterns. NanoLett 13, 444–450 (2013)ADSCrossRef

Noskov, R.E., Krasnok, A.E., Kivshar, YuS: Nonlinear metal–dielectric nano-antennas for light switching and routing. New J. Phys. 14, 093005 (2012)ADSCrossRef

Pors, A., Willatzen, M., Albrektsen, O., Bozhevolnyi, S.I.: From plasmonic nano-antennas to split-ring resonators: tuning scattering strength. J. Opt. Soc. 27(8), 1680–1687 (2010)ADSCrossRef

Rahimi, Z.: The finite integration technique (FIT) and the application in lithography simulations, Ph.D. dissertation, Friedrich-Alexander University, Erlangen (2011)

Roxworthy, B.J., Ko, K.D., Kumar, A., Fung, K.H., Chow, E.K.C., Liu, G.L., Fang, N.X., Toussaint, K.C.: Application of plasmonic bowtie nanoantenna arrays for optical trapping, stacking, and sorting. Nano Lett. 12, 796–801 (2012)ADSCrossRef

Sergaeva, O.N., Savelev, R.S., Baranov, D.G., Krasnok, A.E.: Core-shell Yagi–Uda nano-antenna for highly efficient and directive emission. In: IOP Conference Series (2017)

Su, L., Yuan, H., Lu, G., Rocha, S., Orrit, M., Hofkens, J., Uji, H.: Super-resolution localization and defocused fluorescence microscopy on resonantly coupled single-molecule, single-nanorod hybrids. ACS Nano 10(2), 2455–2466 (2016)CrossRef

Tucker, E., Archangel, J.D., Raschke, M., Briones, E., Javier González, F., Boreman, G.: Near-field mapping of dipole nano-antenna-coupled bolometers. AIP 114(3), 033109 (2013)

Wertz, E., Isaacoff, B.P., Flynn, J.D., Biteen, J.S.: Single-molecule super-resolution microscopy reveals how light couples to a plasmonic nano-antenna on the nanometer scale. Nano Lett. 15(4), 2662–2670 (2015)ADSCrossRef

Wissert, M.D., Schell, A.W., Ilin, K.S., Siegel, M., Eisler, H.-J.: Nanoengineering and characterization of gold dipole nano-antennas with enhanced integrated scattering properties. IOP 20, 425203 (2009)

Wu, Y.-M., Li, L.-W., Liu, B.: Gold Bow-tie shaped aperture nanoantenna: wide band near-field resonance and far-field radiation. IEEE Trans. Magn. 46(6), 1918–1921 (2010)ADSCrossRef

Xiong, X.Y.Z., Jiang, L.J., Sha, W.E.I., Lo, Y.H., Chew, W.C.: A novel beam-steering nonlinear nano-antenna with surface plasmon resonance. In: URSI International Symposium on Electromagnetic Theory (2016)

Yousefi, L., Foster, A.C.: Waveguide-fed optical hybrid plasmonic patch nano-antenna. Opt. Express 20(16), 18326–18335 (2012)ADSCrossRef

Zou, L., Withayachumnankul, W., Shah, C.M., Mitchell, A., Bhaskaran, M., Sriram, S., Fumeaux, C.: Dielectric resonator nano-antennas at visible frequencies. Opt. Express 21(1), 1344–1352 (2013)ADSCrossRef

Titel: Radiation pattern direction control in nano-antenna (tunable nano-antenna)
verfasst von: A. Beheshti Asl
A. Rostami
I. S. Amiri
Publikationsdatum: 01.11.2019
Verlag: Springer US
Erschienen in: Optical and Quantum Electronics / Ausgabe 11/2019
Print ISSN: 0306-8919
Elektronische ISSN: 1572-817X
DOI: https://doi.org/10.1007/s11082-019-2085-4

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