Abstract

By controlling interference of Mie resonance modes of various nanostructures, we can achieve a large number of nontrivial effects in nanophotonics. In this work, we propose a cylindrical structure in which the spectral overlap of the Mie-type modes can be controlled by drilling a hole parallel to the axis, thus changing unidirectional scattering. We further demonstrate that the scattering patterns can be tailored by rotating the structure to achieve almost arbitrary scattered wave direction.

© 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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References

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    [Crossref] [PubMed]
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    [Crossref] [PubMed]
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    [Crossref] [PubMed]
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    [Crossref]
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    [Crossref]
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    [Crossref]
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    [Crossref] [PubMed]
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    [Crossref] [PubMed]
  45. W. Liu, A. E. Miroshnichenko, R. F. Oulton, D. N. Neshev, O. Hess, and Y. S. Kivshar, “Scattering of core-shell nanowires with the interference of electric and magnetic resonances,” Opt. Lett. 38, 2621–2624 (2013).
    [Crossref] [PubMed]
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    [Crossref]
  51. W. Liu and A. E. Miroshnichenko, “Beam steering with dielectric metalattices,” ACS Photonics 5, 1733–1741 (2017).
    [Crossref]
  52. H. Yousif and A. Elsherbeni, “Oblique incidence scattering from two eccentric cylinders,” J. Electromagn. Waves Appl. 11, 1273–1288 (1997).
    [Crossref]
  53. C. A. Valagiannopoulos, “Electromagnetic scattering from two eccentric metamaterial cylinders with frequency-dependent permittivities differing slightly each other,” PIER 3, 23–34 (2008).
    [Crossref]
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2018 (2)

A. F. Cihan, A. G. Curto, S. Raza, P. G. Kik, and M. L. Brongersma, “Silicon mie resonators for highly directional light emission from monolayer mos 2,” Nat. Photonics 12, 284 (2018).
[Crossref]

W. Liu and Y. S. Kivshar, “Generalized kerker effects in nanophotonics and meta-optics,” Opt. Express 26, 13085–13105 (2018).
[Crossref] [PubMed]

2017 (6)

K. V. Baryshnikova, A. Novitsky, A. B. Evlyukhin, and A. S. Shalin, “Magnetic field concentration with coaxial silicon nanocylinders in the optical spectral range,” J. Opt. Soc. Am. B 34, D36–D41 (2017).
[Crossref]

P. R. Wiecha, A. Cuche, A. Arbouet, C. Girard, G. C. d. Francs, A. Lecestre, G. Larrieu, F. Fournel, V. Larrey, T. Baron, and V. Paillard, “Strongly directional scattering from dielectric nanowires,” ACS Photonics 4, 2036–2046 (2017).
[Crossref]

W. Liu and A. E. Miroshnichenko, “Beam steering with dielectric metalattices,” ACS Photonics 5, 1733–1741 (2017).
[Crossref]

W. Liu, “Superscattering pattern shaping for radially anisotropic nanowires,” Phys. Rev. A 96, 023854 (2017).
[Crossref]

Y. Kivshar and A. Miroshnichenko, “Meta-optics with mie resonances,” Opt. Photonics News 28, 24–31 (2017).
[Crossref]

D. A. Powell, “Interference between the modes of an all-dielectric meta-atom,” Phys. Rev. Appl. 7, 034006 (2017).
[Crossref]

2016 (3)

A. I. Kuznetsov, A. E. Miroshnichenko, M. L. Brongersma, Y. S. Kivshar, and B. Luk’yanchuk, “Optically resonant dielectric nanostructures,” Science 354, 2472 (2016).
[Crossref] [PubMed]

S. Jahani and Z. Jacob, “All-dielectric metamaterials,” Nat. Nanotechnol. 11, 23–36 (2016).
[Crossref] [PubMed]

M. A. van de Haar, J. van de Groep, B. J. Brenny, and A. Polman, “Controlling magnetic and electric dipole modes in hollow silicon nanocylinders,” Opt. Express 24, 2047–2064 (2016).
[Crossref] [PubMed]

2015 (6)

R. R. Naraghi, S. Sukhov, and A. Dogariu, “Directional control of scattering by all-dielectric core-shell spheres,” Opt. Lett. 40, 585–588 (2015).
[Crossref] [PubMed]

R. Alaee, R. Filter, D. Lehr, F. Lederer, and C. Rockstuhl, “A generalized kerker condition for highly directive nanoantennas,” Opt. Lett. 40, 2645–2648 (2015).
[Crossref] [PubMed]

R. Alaee, M. Albooyeh, M. Yazdi, N. Komjani, C. Simovski, F. Lederer, and C. Rockstuhl, “Magnetoelectric coupling in nonidentical plasmonic nanoparticles: Theory and applications,” Phys. Rev. B 91, 115119 (2015).
[Crossref]

A. Mirzaei, A. E. Miroshnichenko, I. V. Shadrivov, and Y. S. Kivshar, “All-dielectric multilayer cylindrical structures for invisibility cloaking,” Sci. Rep. 5, 9574 (2015).
[Crossref]

C. van Lare, F. Lenzmann, M. A. Verschuuren, and A. Polman, “Dielectric scattering patterns for efficient light trapping in thin-film solar cells,” Nano Lett. 15, 4846–4852 (2015).
[Crossref] [PubMed]

M. I. Tribelsky, J.-M. Geffrin, A. Litman, C. Eyraud, and F. Moreno, “Small dielectric spheres with high refractive index as new multifunctional elements for optical devices,” Sci. Rep. 5, 12288 (2015).
[Crossref] [PubMed]

2014 (6)

A. B. Evlyukhin, R. L. Eriksen, W. Cheng, J. Beermann, C. Reinhardt, A. Petrov, S. Prorok, M. Eich, B. N. Chichkov, and S. I. Bozhevolnyi, “Optical spectroscopy of single si nanocylinders with magnetic and electric resonances,” Sci. Rep. 4, 4126 (2014).
[Crossref] [PubMed]

W. Liu, A. E. Miroshnichenko, and Y. S. Kivshar, “Control of light scattering by nanoparticles with optically-induced magnetic responses,” Chin. Phys. B 23, 047806 (2014).
[Crossref]

E. Rusak, I. Staude, M. Decker, J. Sautter, A. E. Miroshnichenko, D. A. Powell, D. N. Neshev, and Y. S. Kivshar, “Hybrid nanoantennas for directional emission enhancement,” Appl. Phys. Lett. 105, 221109 (2014).
[Crossref]

S. Wang and C. Chan, “Lateral optical force on chiral particles near a surface,” Nat. Commun. 5, 4307 (2014).

A. E. Krasnok, D. S. Filonov, C. R. Simovski, Y. S. Kivshar, and P. A. Belov, “Experimental demonstration of superdirective dielectric antenna,” Appl. Phys. Lett. 104, 133502 (2014).
[Crossref]

W. Liu, J. Zhang, B. Lei, H. Ma, W. Xie, and H. Hu, “Ultra-directional forward scattering by individual core-shell nanoparticles,” Opt. Express 22, 16178–16187 (2014).
[Crossref] [PubMed]

2013 (9)

L. Zou, W. Withayachumnankul, C. M. Shah, A. Mitchell, M. Bhaskaran, S. Sriram, and C. Fumeaux, “Dielectric resonator nanoantennas at visible frequencies,” Opt. Express 21, 1344–1352 (2013).
[Crossref] [PubMed]

X. Zambrana-Puyalto, I. Fernandez-Corbaton, M. Juan, X. Vidal, and G. Molina-Terriza, “Duality symmetry and kerker conditions,” Opt. Lett. 38, 1857–1859 (2013).
[Crossref] [PubMed]

W. Liu, A. E. Miroshnichenko, R. F. Oulton, D. N. Neshev, O. Hess, and Y. S. Kivshar, “Scattering of core-shell nanowires with the interference of electric and magnetic resonances,” Opt. Lett. 38, 2621–2624 (2013).
[Crossref] [PubMed]

J. Van de Groep and A. Polman, “Designing dielectric resonators on substrates: Combining magnetic and electric resonances,” Opt. Express 21, 26285–26302 (2013).
[Crossref] [PubMed]

I. M. Hancu, A. G. Curto, M. Castro-López, M. Kuttge, and N. F. van Hulst, “Multipolar interference for directed light emission,” Nano Lett. 14, 166–171 (2013).
[Crossref] [PubMed]

S. D. Campbell and R. W. Ziolkowski, “Simultaneous excitation of electric and magnetic dipole modes in a resonant core-shell particle at infrared frequencies to achieve minimal backscattering,” IEEE J. Sel. Top. Quantum Electron. 19, 4700209 (2013).
[Crossref]

S. Person, M. Jain, Z. Lapin, J. J. Sáenz, G. Wicks, and L. Novotny, “Demonstration of zero optical backscattering from single nanoparticles,” Nano Lett. 13, 1806–1809 (2013).
[Crossref] [PubMed]

I. Staude, A. E. Miroshnichenko, M. Decker, N. T. Fofang, S. Liu, E. Gonzales, J. Dominguez, T. S. Luk, D. N. Neshev, I. Brener, and Y. Kivshar, “Tailoring directional scattering through magnetic and electric resonances in subwavelength silicon nanodisks,” ACS Nano 7, 7824–7832 (2013).
[Crossref] [PubMed]

Y. H. Fu, A. I. Kuznetsov, A. E. Miroshnichenko, Y. F. Yu, and B. Luk’yanchuk, “Directional visible light scattering by silicon nanoparticles,” Nat. Commun. 4, 1527 (2013).
[Crossref] [PubMed]

2012 (4)

A. I. Kuznetsov, A. E. Miroshnichenko, Y. H. Fu, J. Zhang, and B. Luk’Yanchuk, “Magnetic light,” Sci. Rep. 2, 492 (2012).
[Crossref] [PubMed]

W. Liu, A. E. Miroshnichenko, D. N. Neshev, and Y. S. Kivshar, “Broadband unidirectional scattering by magneto-electric core–shell nanoparticles,” ACS Nano 6, 5489–5497 (2012).
[Crossref] [PubMed]

A. P. Vasudev, J. A. Schuller, and M. L. Brongersma, “Nanophotonic light trapping with patterned transparent conductive oxides,” Opt. Express 20, A385–A394 (2012).
[Crossref] [PubMed]

B. Rolly, B. Stout, and N. Bonod, “Boosting the directivity of optical antennas with magnetic and electric dipolar resonant particles,” Opt. Express 20, 20376–20386 (2012).
[Crossref] [PubMed]

2011 (7)

2010 (3)

A. B. Evlyukhin, C. Reinhardt, A. Seidel, B. S. Luk’yanchuk, and B. N. Chichkov, “Optical response features of si-nanoparticle arrays,” Phys. Rev. B 82, 045404 (2010).
[Crossref]

A. G. Curto, G. Volpe, T. H. Taminiau, M. P. Kreuzer, R. Quidant, and N. F. van Hulst, “Unidirectional emission of a quantum dot coupled to a nanoantenna,” Science 329, 930–933 (2010).
[Crossref] [PubMed]

H. A. Atwater and A. Polman, “Plasmonics for improved photovoltaic devices,” Nat. Mater. 9, 205–213 (2010).
[Crossref] [PubMed]

2009 (3)

A. Kabashin, P. Evans, S. Pastkovsky, W. Hendren, G. Wurtz, R. Atkinson, R. Pollard, V. Podolskiy, and A. Zayats, “Plasmonic nanorod metamaterials for biosensing,” Nat. Mater. 8, 867–871 (2009).
[Crossref] [PubMed]

J. A. Schuller and M. L. Brongersma, “General properties of dielectric optical antennas,” Opt. Express 17, 24084–24095 (2009).
[Crossref]

L. Cao, J. S. White, J.-S. Park, J. A. Schuller, B. M. Clemens, and M. L. Brongersma, “Engineering light absorption in semiconductor nanowire devices,” Nat. Mater. 8, 643–647 (2009).
[Crossref] [PubMed]

2008 (2)

A. Ahmadi and H. Mosallaei, “Physical configuration and performance modeling of all-dielectric metamaterials,” Phys. Rev. B 77, 045104 (2008).
[Crossref]

C. A. Valagiannopoulos, “Electromagnetic scattering from two eccentric metamaterial cylinders with frequency-dependent permittivities differing slightly each other,” PIER 3, 23–34 (2008).
[Crossref]

2007 (1)

J. A. Schuller, R. Zia, T. Taubner, and M. L. Brongersma, “Dielectric metamaterials based on electric and magnetic resonances of silicon carbide particles,” Phys. Rev. Lett. 99, 107401 (2007).
[Crossref] [PubMed]

1997 (1)

H. Yousif and A. Elsherbeni, “Oblique incidence scattering from two eccentric cylinders,” J. Electromagn. Waves Appl. 11, 1273–1288 (1997).
[Crossref]

1983 (1)

M. Kerker, D.-S. Wang, and C. Giles, “Electromagnetic scattering by magnetic spheres,” JOSA 73, 765–767 (1983).
[Crossref]

Ahmadi, A.

A. Ahmadi and H. Mosallaei, “Physical configuration and performance modeling of all-dielectric metamaterials,” Phys. Rev. B 77, 045104 (2008).
[Crossref]

Aizpurua, J.

Alaee, R.

R. Alaee, R. Filter, D. Lehr, F. Lederer, and C. Rockstuhl, “A generalized kerker condition for highly directive nanoantennas,” Opt. Lett. 40, 2645–2648 (2015).
[Crossref] [PubMed]

R. Alaee, M. Albooyeh, M. Yazdi, N. Komjani, C. Simovski, F. Lederer, and C. Rockstuhl, “Magnetoelectric coupling in nonidentical plasmonic nanoparticles: Theory and applications,” Phys. Rev. B 91, 115119 (2015).
[Crossref]

Albooyeh, M.

R. Alaee, M. Albooyeh, M. Yazdi, N. Komjani, C. Simovski, F. Lederer, and C. Rockstuhl, “Magnetoelectric coupling in nonidentical plasmonic nanoparticles: Theory and applications,” Phys. Rev. B 91, 115119 (2015).
[Crossref]

Arbouet, A.

P. R. Wiecha, A. Cuche, A. Arbouet, C. Girard, G. C. d. Francs, A. Lecestre, G. Larrieu, F. Fournel, V. Larrey, T. Baron, and V. Paillard, “Strongly directional scattering from dielectric nanowires,” ACS Photonics 4, 2036–2046 (2017).
[Crossref]

Atkinson, R.

A. Kabashin, P. Evans, S. Pastkovsky, W. Hendren, G. Wurtz, R. Atkinson, R. Pollard, V. Podolskiy, and A. Zayats, “Plasmonic nanorod metamaterials for biosensing,” Nat. Mater. 8, 867–871 (2009).
[Crossref] [PubMed]

Atwater, H. A.

J. Grandidier, D. M. Callahan, J. N. Munday, and H. A. Atwater, “Light absorption enhancement in thin-film solar cells using whispering gallery modes in dielectric nanospheres,” Adv. Mater. 23, 1272–1276 (2011).
[Crossref] [PubMed]

H. A. Atwater and A. Polman, “Plasmonics for improved photovoltaic devices,” Nat. Mater. 9, 205–213 (2010).
[Crossref] [PubMed]

Baron, T.

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Miroshnichenko, A. E.

W. Liu and A. E. Miroshnichenko, “Beam steering with dielectric metalattices,” ACS Photonics 5, 1733–1741 (2017).
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A. I. Kuznetsov, A. E. Miroshnichenko, M. L. Brongersma, Y. S. Kivshar, and B. Luk’yanchuk, “Optically resonant dielectric nanostructures,” Science 354, 2472 (2016).
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A. Mirzaei, A. E. Miroshnichenko, I. V. Shadrivov, and Y. S. Kivshar, “All-dielectric multilayer cylindrical structures for invisibility cloaking,” Sci. Rep. 5, 9574 (2015).
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W. Liu, A. E. Miroshnichenko, and Y. S. Kivshar, “Control of light scattering by nanoparticles with optically-induced magnetic responses,” Chin. Phys. B 23, 047806 (2014).
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E. Rusak, I. Staude, M. Decker, J. Sautter, A. E. Miroshnichenko, D. A. Powell, D. N. Neshev, and Y. S. Kivshar, “Hybrid nanoantennas for directional emission enhancement,” Appl. Phys. Lett. 105, 221109 (2014).
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Y. H. Fu, A. I. Kuznetsov, A. E. Miroshnichenko, Y. F. Yu, and B. Luk’yanchuk, “Directional visible light scattering by silicon nanoparticles,” Nat. Commun. 4, 1527 (2013).
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I. Staude, A. E. Miroshnichenko, M. Decker, N. T. Fofang, S. Liu, E. Gonzales, J. Dominguez, T. S. Luk, D. N. Neshev, I. Brener, and Y. Kivshar, “Tailoring directional scattering through magnetic and electric resonances in subwavelength silicon nanodisks,” ACS Nano 7, 7824–7832 (2013).
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W. Liu, A. E. Miroshnichenko, R. F. Oulton, D. N. Neshev, O. Hess, and Y. S. Kivshar, “Scattering of core-shell nanowires with the interference of electric and magnetic resonances,” Opt. Lett. 38, 2621–2624 (2013).
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A. I. Kuznetsov, A. E. Miroshnichenko, Y. H. Fu, J. Zhang, and B. Luk’Yanchuk, “Magnetic light,” Sci. Rep. 2, 492 (2012).
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W. Liu, A. E. Miroshnichenko, D. N. Neshev, and Y. S. Kivshar, “Broadband unidirectional scattering by magneto-electric core–shell nanoparticles,” ACS Nano 6, 5489–5497 (2012).
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A. Mirzaei, A. E. Miroshnichenko, I. V. Shadrivov, and Y. S. Kivshar, “All-dielectric multilayer cylindrical structures for invisibility cloaking,” Sci. Rep. 5, 9574 (2015).
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E. Rusak, I. Staude, M. Decker, J. Sautter, A. E. Miroshnichenko, D. A. Powell, D. N. Neshev, and Y. S. Kivshar, “Hybrid nanoantennas for directional emission enhancement,” Appl. Phys. Lett. 105, 221109 (2014).
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W. Liu, A. E. Miroshnichenko, R. F. Oulton, D. N. Neshev, O. Hess, and Y. S. Kivshar, “Scattering of core-shell nanowires with the interference of electric and magnetic resonances,” Opt. Lett. 38, 2621–2624 (2013).
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W. Liu, A. E. Miroshnichenko, D. N. Neshev, and Y. S. Kivshar, “Broadband unidirectional scattering by magneto-electric core–shell nanoparticles,” ACS Nano 6, 5489–5497 (2012).
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A. Kabashin, P. Evans, S. Pastkovsky, W. Hendren, G. Wurtz, R. Atkinson, R. Pollard, V. Podolskiy, and A. Zayats, “Plasmonic nanorod metamaterials for biosensing,” Nat. Mater. 8, 867–871 (2009).
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Raman, A.

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A. F. Cihan, A. G. Curto, S. Raza, P. G. Kik, and M. L. Brongersma, “Silicon mie resonators for highly directional light emission from monolayer mos 2,” Nat. Photonics 12, 284 (2018).
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A. B. Evlyukhin, C. Reinhardt, A. Seidel, B. S. Luk’yanchuk, and B. N. Chichkov, “Optical response features of si-nanoparticle arrays,” Phys. Rev. B 82, 045404 (2010).
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R. Alaee, M. Albooyeh, M. Yazdi, N. Komjani, C. Simovski, F. Lederer, and C. Rockstuhl, “Magnetoelectric coupling in nonidentical plasmonic nanoparticles: Theory and applications,” Phys. Rev. B 91, 115119 (2015).
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Sáenz, J. J.

Sautter, J.

E. Rusak, I. Staude, M. Decker, J. Sautter, A. E. Miroshnichenko, D. A. Powell, D. N. Neshev, and Y. S. Kivshar, “Hybrid nanoantennas for directional emission enhancement,” Appl. Phys. Lett. 105, 221109 (2014).
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Scheffold, F.

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A. P. Vasudev, J. A. Schuller, and M. L. Brongersma, “Nanophotonic light trapping with patterned transparent conductive oxides,” Opt. Express 20, A385–A394 (2012).
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S. A. Mann, R. R. Grote, R. M. Osgood, and J. A. Schuller, “Dielectric particle and void resonators for thin film solar cell textures,” Opt. Express 19, 25729–25740 (2011).
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J. A. Schuller and M. L. Brongersma, “General properties of dielectric optical antennas,” Opt. Express 17, 24084–24095 (2009).
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L. Cao, J. S. White, J.-S. Park, J. A. Schuller, B. M. Clemens, and M. L. Brongersma, “Engineering light absorption in semiconductor nanowire devices,” Nat. Mater. 8, 643–647 (2009).
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J. A. Schuller, R. Zia, T. Taubner, and M. L. Brongersma, “Dielectric metamaterials based on electric and magnetic resonances of silicon carbide particles,” Phys. Rev. Lett. 99, 107401 (2007).
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A. B. Evlyukhin, C. Reinhardt, A. Seidel, B. S. Luk’yanchuk, and B. N. Chichkov, “Optical response features of si-nanoparticle arrays,” Phys. Rev. B 82, 045404 (2010).
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Shadrivov, I. V.

A. Mirzaei, A. E. Miroshnichenko, I. V. Shadrivov, and Y. S. Kivshar, “All-dielectric multilayer cylindrical structures for invisibility cloaking,” Sci. Rep. 5, 9574 (2015).
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A. E. Krasnok, D. S. Filonov, C. R. Simovski, Y. S. Kivshar, and P. A. Belov, “Experimental demonstration of superdirective dielectric antenna,” Appl. Phys. Lett. 104, 133502 (2014).
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E. Rusak, I. Staude, M. Decker, J. Sautter, A. E. Miroshnichenko, D. A. Powell, D. N. Neshev, and Y. S. Kivshar, “Hybrid nanoantennas for directional emission enhancement,” Appl. Phys. Lett. 105, 221109 (2014).
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A. G. Curto, G. Volpe, T. H. Taminiau, M. P. Kreuzer, R. Quidant, and N. F. van Hulst, “Unidirectional emission of a quantum dot coupled to a nanoantenna,” Science 329, 930–933 (2010).
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M. I. Tribelsky, J.-M. Geffrin, A. Litman, C. Eyraud, and F. Moreno, “Small dielectric spheres with high refractive index as new multifunctional elements for optical devices,” Sci. Rep. 5, 12288 (2015).
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A. G. Curto, G. Volpe, T. H. Taminiau, M. P. Kreuzer, R. Quidant, and N. F. van Hulst, “Unidirectional emission of a quantum dot coupled to a nanoantenna,” Science 329, 930–933 (2010).
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C. van Lare, F. Lenzmann, M. A. Verschuuren, and A. Polman, “Dielectric scattering patterns for efficient light trapping in thin-film solar cells,” Nano Lett. 15, 4846–4852 (2015).
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C. van Lare, F. Lenzmann, M. A. Verschuuren, and A. Polman, “Dielectric scattering patterns for efficient light trapping in thin-film solar cells,” Nano Lett. 15, 4846–4852 (2015).
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L. Cao, J. S. White, J.-S. Park, J. A. Schuller, B. M. Clemens, and M. L. Brongersma, “Engineering light absorption in semiconductor nanowire devices,” Nat. Mater. 8, 643–647 (2009).
[Crossref] [PubMed]

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S. Person, M. Jain, Z. Lapin, J. J. Sáenz, G. Wicks, and L. Novotny, “Demonstration of zero optical backscattering from single nanoparticles,” Nano Lett. 13, 1806–1809 (2013).
[Crossref] [PubMed]

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Yazdi, M.

R. Alaee, M. Albooyeh, M. Yazdi, N. Komjani, C. Simovski, F. Lederer, and C. Rockstuhl, “Magnetoelectric coupling in nonidentical plasmonic nanoparticles: Theory and applications,” Phys. Rev. B 91, 115119 (2015).
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Y. H. Fu, A. I. Kuznetsov, A. E. Miroshnichenko, Y. F. Yu, and B. Luk’yanchuk, “Directional visible light scattering by silicon nanoparticles,” Nat. Commun. 4, 1527 (2013).
[Crossref] [PubMed]

Yu, Z.

Zambrana-Puyalto, X.

Zayats, A.

A. Kabashin, P. Evans, S. Pastkovsky, W. Hendren, G. Wurtz, R. Atkinson, R. Pollard, V. Podolskiy, and A. Zayats, “Plasmonic nanorod metamaterials for biosensing,” Nat. Mater. 8, 867–871 (2009).
[Crossref] [PubMed]

Zhang, J.

Zia, R.

J. A. Schuller, R. Zia, T. Taubner, and M. L. Brongersma, “Dielectric metamaterials based on electric and magnetic resonances of silicon carbide particles,” Phys. Rev. Lett. 99, 107401 (2007).
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Ziolkowski, R. W.

S. D. Campbell and R. W. Ziolkowski, “Simultaneous excitation of electric and magnetic dipole modes in a resonant core-shell particle at infrared frequencies to achieve minimal backscattering,” IEEE J. Sel. Top. Quantum Electron. 19, 4700209 (2013).
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ACS Nano (2)

I. Staude, A. E. Miroshnichenko, M. Decker, N. T. Fofang, S. Liu, E. Gonzales, J. Dominguez, T. S. Luk, D. N. Neshev, I. Brener, and Y. Kivshar, “Tailoring directional scattering through magnetic and electric resonances in subwavelength silicon nanodisks,” ACS Nano 7, 7824–7832 (2013).
[Crossref] [PubMed]

W. Liu, A. E. Miroshnichenko, D. N. Neshev, and Y. S. Kivshar, “Broadband unidirectional scattering by magneto-electric core–shell nanoparticles,” ACS Nano 6, 5489–5497 (2012).
[Crossref] [PubMed]

ACS Photonics (2)

P. R. Wiecha, A. Cuche, A. Arbouet, C. Girard, G. C. d. Francs, A. Lecestre, G. Larrieu, F. Fournel, V. Larrey, T. Baron, and V. Paillard, “Strongly directional scattering from dielectric nanowires,” ACS Photonics 4, 2036–2046 (2017).
[Crossref]

W. Liu and A. E. Miroshnichenko, “Beam steering with dielectric metalattices,” ACS Photonics 5, 1733–1741 (2017).
[Crossref]

Adv. Mater. (1)

J. Grandidier, D. M. Callahan, J. N. Munday, and H. A. Atwater, “Light absorption enhancement in thin-film solar cells using whispering gallery modes in dielectric nanospheres,” Adv. Mater. 23, 1272–1276 (2011).
[Crossref] [PubMed]

Appl. Phys. Lett. (2)

A. E. Krasnok, D. S. Filonov, C. R. Simovski, Y. S. Kivshar, and P. A. Belov, “Experimental demonstration of superdirective dielectric antenna,” Appl. Phys. Lett. 104, 133502 (2014).
[Crossref]

E. Rusak, I. Staude, M. Decker, J. Sautter, A. E. Miroshnichenko, D. A. Powell, D. N. Neshev, and Y. S. Kivshar, “Hybrid nanoantennas for directional emission enhancement,” Appl. Phys. Lett. 105, 221109 (2014).
[Crossref]

Chin. Phys. B (1)

W. Liu, A. E. Miroshnichenko, and Y. S. Kivshar, “Control of light scattering by nanoparticles with optically-induced magnetic responses,” Chin. Phys. B 23, 047806 (2014).
[Crossref]

IEEE J. Sel. Top. Quantum Electron. (1)

S. D. Campbell and R. W. Ziolkowski, “Simultaneous excitation of electric and magnetic dipole modes in a resonant core-shell particle at infrared frequencies to achieve minimal backscattering,” IEEE J. Sel. Top. Quantum Electron. 19, 4700209 (2013).
[Crossref]

J. Electromagn. Waves Appl. (1)

H. Yousif and A. Elsherbeni, “Oblique incidence scattering from two eccentric cylinders,” J. Electromagn. Waves Appl. 11, 1273–1288 (1997).
[Crossref]

J. Opt. Soc. Am. A (1)

J. Opt. Soc. Am. B (1)

JOSA (1)

M. Kerker, D.-S. Wang, and C. Giles, “Electromagnetic scattering by magnetic spheres,” JOSA 73, 765–767 (1983).
[Crossref]

Nano Lett. (3)

S. Person, M. Jain, Z. Lapin, J. J. Sáenz, G. Wicks, and L. Novotny, “Demonstration of zero optical backscattering from single nanoparticles,” Nano Lett. 13, 1806–1809 (2013).
[Crossref] [PubMed]

C. van Lare, F. Lenzmann, M. A. Verschuuren, and A. Polman, “Dielectric scattering patterns for efficient light trapping in thin-film solar cells,” Nano Lett. 15, 4846–4852 (2015).
[Crossref] [PubMed]

I. M. Hancu, A. G. Curto, M. Castro-López, M. Kuttge, and N. F. van Hulst, “Multipolar interference for directed light emission,” Nano Lett. 14, 166–171 (2013).
[Crossref] [PubMed]

Nat. Commun. (2)

S. Wang and C. Chan, “Lateral optical force on chiral particles near a surface,” Nat. Commun. 5, 4307 (2014).

Y. H. Fu, A. I. Kuznetsov, A. E. Miroshnichenko, Y. F. Yu, and B. Luk’yanchuk, “Directional visible light scattering by silicon nanoparticles,” Nat. Commun. 4, 1527 (2013).
[Crossref] [PubMed]

Nat. Mater. (3)

L. Cao, J. S. White, J.-S. Park, J. A. Schuller, B. M. Clemens, and M. L. Brongersma, “Engineering light absorption in semiconductor nanowire devices,” Nat. Mater. 8, 643–647 (2009).
[Crossref] [PubMed]

A. Kabashin, P. Evans, S. Pastkovsky, W. Hendren, G. Wurtz, R. Atkinson, R. Pollard, V. Podolskiy, and A. Zayats, “Plasmonic nanorod metamaterials for biosensing,” Nat. Mater. 8, 867–871 (2009).
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H. A. Atwater and A. Polman, “Plasmonics for improved photovoltaic devices,” Nat. Mater. 9, 205–213 (2010).
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Nat. Nanotechnol. (1)

S. Jahani and Z. Jacob, “All-dielectric metamaterials,” Nat. Nanotechnol. 11, 23–36 (2016).
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Nat. Photonics (2)

L. Novotny and N. Van Hulst, “Antennas for light,” Nat. Photonics 5, 83–90 (2011).
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A. F. Cihan, A. G. Curto, S. Raza, P. G. Kik, and M. L. Brongersma, “Silicon mie resonators for highly directional light emission from monolayer mos 2,” Nat. Photonics 12, 284 (2018).
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Opt. Express (11)

W. Liu, J. Zhang, B. Lei, H. Ma, W. Xie, and H. Hu, “Ultra-directional forward scattering by individual core-shell nanoparticles,” Opt. Express 22, 16178–16187 (2014).
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L. Zou, W. Withayachumnankul, C. M. Shah, A. Mitchell, M. Bhaskaran, S. Sriram, and C. Fumeaux, “Dielectric resonator nanoantennas at visible frequencies,” Opt. Express 21, 1344–1352 (2013).
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W. Liu and Y. S. Kivshar, “Generalized kerker effects in nanophotonics and meta-optics,” Opt. Express 26, 13085–13105 (2018).
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A. García-Etxarri, R. Gómez-Medina, L. S. Froufe-Pérez, C. López, L. Chantada, F. Scheffold, J. Aizpurua, M. Nieto-Vesperinas, and J. J. Sáenz, “Strong magnetic response of submicron silicon particles in the infrared,” Opt. Express 19, 4815–4826 (2011).
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A. P. Vasudev, J. A. Schuller, and M. L. Brongersma, “Nanophotonic light trapping with patterned transparent conductive oxides,” Opt. Express 20, A385–A394 (2012).
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J. A. Schuller, R. Zia, T. Taubner, and M. L. Brongersma, “Dielectric metamaterials based on electric and magnetic resonances of silicon carbide particles,” Phys. Rev. Lett. 99, 107401 (2007).
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A. G. Curto, G. Volpe, T. H. Taminiau, M. P. Kreuzer, R. Quidant, and N. F. van Hulst, “Unidirectional emission of a quantum dot coupled to a nanoantenna,” Science 329, 930–933 (2010).
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Figures (4)

Fig. 1
Fig. 1 Schematics of the problem. (a) A hollow nanorod structure with outer radius Rout = 450 nm and refractive index ñ = 3.4 + i 0.01. (b) An asymmetric nanorod structure with the same outer radius and refractive index. Both structures are illuminated by TE-polarized plane wave propagating in x-direction as indicated by the colored arrows. The insets in each figure show the cross-sectional view as well as an example of angular intensity distribution for each structure.
Fig. 2
Fig. 2 (a) Scattering efficiency of a symmetric hollow nanorod as a function of the ratio of the inner radius to the outer radius Rin/Rout and size parameter q = k0Rout. (b) Scattering efficiency spectra obtained by taking a horizontal cross-section of Fig. 2(a) at Rin/Rout = 0.3 along with the mode decomposition. (c) Ratio of forward scattering (the scattered wave intensity at ϕ = 0°) to backward scattering (the scattered wave intensity at ϕ = 180°). (d) Angular intensity distributions corresponding to the marked points in Fig. 2(c).
Fig. 3
Fig. 3 (a) Scattering efficiency Qsca calculated for the asymmetric nanorod system for (Rin, d, θ) = (0.5Rout, 0.4Rout, 100°), (b) Scattering diagrams calculated at q = 2.24 for θ = 100° (solid blue), 140° (solid brown), −100° (dashed blue), −140° (dashed brown). (c) The angle of the major scattering lobe as a function of the angle θ.
Fig. 4
Fig. 4 (a) The scattering efficiency Qsca calculated only for the upper half-space (y > 0), (b) the Qsca calculated only for the lower half-space (y < 0), (c) The ratio of scattering in the lower half-space to that in upper half-space. (d) The angular intensity distribution for the parameters corresponding to the point T in figure (c). All figures are calculated for asymmetric nanorod structure with Rout = 450 nm, Rin = 0.5Rout and d = 0.4Rout.

Equations (6)

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z 1 = n [ A 1 n J n ( k 1 ρ 1 ) ] e i n ϕ 1 ,
z 2 = n [ A 2 n J n ( k 2 ρ 1 ) + B 2 n H n ( k 2 ρ 1 ) ] e i n ϕ 1 ,
z 3 = m [ i m J m ( k 3 ρ 2 ) + B 3 m H m ( k 3 ρ 2 ) ] e i m ϕ 2 ,
J / H n ( k 2 ρ 1 ) e i n ϕ 1 = m J m n ( k 2 d ) e i ( m n ) θ J / H m ( k 2 ρ 2 ) e i m ϕ 2 ,
Q sca = Re [ ( E sca × H sca * ) ρ ^ d ϕ ] 4 I inc ,
Q sca = 2 q m = | B 3 m | 2 ,

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