Abstract

Magnetic resonances generated with nonmagnetic nanostructures have been widely used to design various functional nanophotonic devices, and it is important to realize pure magnetic dipole scattering for the unambiguous study of magnetic light-matter interactions. However, the magnetic responses often spectrally overlapping with other multipoles, which is the main obstacle to achieve ideal magnetic dipole resonances. This study proposes and theoretically demonstrates that an ideal magnetic dipole resonance can be excited with metal-dielectric-metal hybridized nanodisks. It is shown that although the generated magnetic dipole scattering around the bonding resonance of the hybridized nanodisk is spectrally overlapping with strong electric dipole and electric quadrupole contributions, an almost perfect current loop can be generated by adjusting the geometry parameters and the refractive index of the dielectric layer, thereby leading to the suppressing of the overlapping multipoles and the formation of an ideal magnetic dipole scattering. What’s more important is that both electric and magnetic near-fields are enhanced simultaneously with the increasing of the refractive index of the dielectric layer, which makes the hybridized nanodisk a promising platform for enhanced magnetic light-matter interactions.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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2019 (7)

C. Zaza, I. L. Violi, J. Gargiulo, G. Chiarelli, L. Schumacher, J. Jakobi, J. Olmos-Trigo, E. Cortes, M. Konig, S. Barcikowski, S. Schlucker, J. J. Saenz, S. A. Maier, and F. D. Stefani, “Size-Selective Optical Printing of Silicon Nanoparticles through Their Dipolar Magnetic Resonance,” ACS Photonics 6(4), 815–822 (2019).
[Crossref]

W. Y. Tsai, T. L. Chung, H. H. Hsiao, J. W. Chen, R. J. Lin, P. C. Wu, G. Sun, C. M. Wang, H. Misawa, and D. P. Tsai, “Second harmonic light manipulation with vertical split ring resonators,” Adv. Mater. 31(7), e1806479 (2019).
[PubMed]

A. Vaskin, S. Mashhadi, M. Steinert, K. E. Chong, D. Keene, S. Nanz, A. Abass, E. Rusak, D. Y. Choi, I. Fernandez-Corbaton, T. Pertsch, C. Rockstuhl, M. A. Noginov, Y. S. Kivshar, D. N. Neshev, N. Noginova, and I. Staude, “Manipulation of magnetic dipole emission from Eu(3+) with Mie-resonant dielectric metasurfaces,” Nano Lett. 19(2), 1015–1022 (2019).
[Crossref] [PubMed]

Y. Sun, I. Sinev, A. Zalogina, E. Ageev, H. Shamkhi, F. Komissarenko, I. Morozov, S. Lepeshov, V. Milichko, S. Makarov, I. Mukhin, and D. Zuev, “Reconfigurable near-field enhancement with hybrid metal-dielectric oligomers,” Laser Photonics Rev. 13(2), 1800274 (2019).
[Crossref]

R. Alaee, C. Rockstuhl, and I. Fernandez-Corbaton, “Exact multipolar decompositions with applications in nanophotonics,” Adv. Opt. Mater. 7(1), 1800783 (2019).
[Crossref]

Z. Li, T. Wu, and X. Zhang, “Tailoring toroidal and magnetic dipole excitations with the same dielectric structure,” Opt. Lett. 44(1), 57–60 (2019).
[Crossref] [PubMed]

C. Liu, T. Wu, Y. Liu, J. Li, Y. Wang, Z. Yu, H. Ye, and L. Yu, “Realization of perfect selective absorber based on multipole modes in all-dielectric moth-eye structure,” Opt. Express 27(4), 5703–5718 (2019).
[Crossref] [PubMed]

2018 (15)

R. Li, X. Zhou, M. Panmai, J. Xiang, H. Liu, M. Ouyang, H. Fan, Q. Dai, and Z. Wei, “Broadband zero backward scattering by all-dielectric core-shell nanoparticles,” Opt. Express 26(22), 28891–28901 (2018).
[Crossref] [PubMed]

N. O. Länk, P. Johansson, and M. Käll, “Directional scattering and multipolar contributions to optical forces on silicon nanoparticles in focused laser beams,” Opt. Express 26(22), 29074–29085 (2018).
[Crossref] [PubMed]

G. Grinblat, R. Berté, M. P. Nielsen, Y. Li, R. F. Oulton, and S. A. Maier, “Sub-20 fs all-optical switching in a single Au-clad Si nanodisk,” Nano Lett. 18(12), 7896–7900 (2018).
[Crossref] [PubMed]

E. Rahimi, H. Xu, B. C. Choi, and R. Gordon, “Lorentz nanoplasmonics for nonlinear generation,” Nano Lett. 18(12), 8030–8034 (2018).
[Crossref] [PubMed]

Y. He, G. Guo, T. Feng, Y. Xu, and A. E. Miroshnichenko, “Toroidal dipole bound states in the continuum,” Phys. Rev. B 98(16), 161112 (2018).
[Crossref]

L. Xu, M. Rahmani, K. Zangeneh Kamali, A. Lamprianidis, L. Ghirardini, J. Sautter, R. Camacho-Morales, H. Chen, M. Parry, I. Staude, G. Zhang, D. Neshev, and A. E. Miroshnichenko, “Boosting third-harmonic generation by a mirror-enhanced anapole resonator,” Light Sci. Appl. 7(1), 44 (2018).
[Crossref] [PubMed]

T. Feng, W. Zhang, Z. Liang, Y. Xu, and A. E. Miroshnichenko, “Isotropic magnetic Purcell effect,” ACS Photonics 5(3), 678–683 (2018).
[Crossref]

S. Liu, A. Vaskin, S. Addamane, B. Leung, M. C. Tsai, Y. Yang, P. P. Vabishchevich, G. A. Keeler, G. Wang, X. He, Y. Kim, N. F. Hartmann, H. Htoon, S. K. Doorn, M. Zilk, T. Pertsch, G. Balakrishnan, M. B. Sinclair, I. Staude, and I. Brener, “Light-emitting metasurfaces: simultaneous control of spontaneous emission and far-field radiation,” Nano Lett. 18(11), 6906–6914 (2018).
[Crossref] [PubMed]

C. Zhang, Y. Xu, J. Liu, J. Li, J. Xiang, H. Li, J. Li, Q. Dai, S. Lan, and A. E. Miroshnichenko, “Lighting up silicon nanoparticles with Mie resonances,” Nat. Commun. 9(1), 2964 (2018).
[Crossref] [PubMed]

Y. Zhang, Y. Xu, S. Chen, H. Lu, K. Chen, Y. Cao, A. E. Miroshnichenko, M. Gu, and X. Li, “Ultra-broadband directional scattering by colloidally lithographed high-Index Mie resonant oligomers and their energy-harvesting applications,” ACS Appl. Mater. Interfaces 10(19), 16776–16782 (2018).
[Crossref] [PubMed]

J. Zeng, M. Darvishzadeh-Varcheie, M. Albooyeh, M. Rajaei, M. Kamandi, M. Veysi, E. O. Potma, F. Capolino, and H. K. Wickramasinghe, “Exclusive magnetic excitation enabled by structured light illumination in a nanoscale Mie resonator,” ACS Nano 12(12), 12159–12168 (2018).
[Crossref] [PubMed]

S. I. Lepeshov, A. E. Krasnok, P. A. Belov, and A. E. Miroshnichenko, “Hybrid nanophotonics,” Phys. Uspekhi 61(11), 1035–1050 (2018).
[Crossref]

A. Das, C. Mao, S. Cho, K. Kim, and W. Park, “Over 1000-fold enhancement of upconversion luminescence using water-dispersible metal-insulator-metal nanostructures,” Nat. Commun. 9(1), 4828 (2018).
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J. Song and W. Zhou, “Multiresonant composite optical nanoantennas by out-of-plane plasmonic engineering,” Nano Lett. 18(7), 4409–4416 (2018).
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G. Schaffernak, M. K. Krug, M. Belitsch, M. Gašparić, H. Ditlbacher, U. Hohenester, J. R. Krenn, and A. Hohenau, “Plasmonic dispersion relations and intensity enhancement of metal-insulator-metal nanodisks,” ACS Photonics 5(12), 4823–4827 (2018).
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2017 (6)

S. Lepeshov, A. Krasnok, I. Mukhin, D. Zuev, A. Gudovskikh, V. Milichko, P. Belov, and A. Miroshnichenko, “Fine-tuning of the magnetic Fano resonance in hybrid oligomers via fs-laser-induced reshaping,” ACS Photonics 4(3), 536–543 (2017).
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F. Timpu, N. R. Hendricks, M. Petrov, S. Ni, C. Renaut, H. Wolf, L. Isa, Y. Kivshar, and R. Grange, “Enhanced second-harmonic generation from sequential capillarity-assisted particle assembly of hybrid nanodimers,” Nano Lett. 17(9), 5381–5388 (2017).
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T. Feng, Y. Xu, W. Zhang, and A. E. Miroshnichenko, “Ideal magnetic dipole scattering,” Phys. Rev. Lett. 118(17), 173901 (2017).
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T. Shibanuma, G. Grinblat, P. Albella, and S. A. Maier, “Efficient third harmonic generation from metal-dielectric hybrid nanoantennas,” Nano Lett. 17(4), 2647–2651 (2017).
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Z. J. Yang, Q. Zhao, and J. He, “Boosting magnetic field enhancement with radiative couplings of magnetic modes in dielectric nanostructures,” Opt. Express 25(14), 15927–15937 (2017).
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D. Zhang, J. Xiang, H. Liu, F. Deng, H. Liu, M. Ouyang, H. Fan, and Q. Dai, “Magnetic Fano resonance of heterodimer nanostructure by azimuthally polarized excitation,” Opt. Express 25(22), 26704–26713 (2017).
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2016 (4)

T. Feng, Y. Xu, Z. Liang, and W. Zhang, “All-dielectric hollow nanodisk for tailoring magnetic dipole emission,” Opt. Lett. 41(21), 5011–5014 (2016).
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A. B. Evlyukhin, T. Fischer, C. Reinhardt, and B. N. Chichkov, “Optical theorem and multipole scattering of light by arbitrarily shaped nanoparticles,” Phys. Rev. B 94(20), 205434 (2016).
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H. Linnenbank, Y. Grynko, J. Förstner, and S. Linden, “Second harmonic generation spectroscopy on hybrid plasmonic/dielectric nanoantennas,” Light Sci. Appl. 5(1), e16013 (2016).
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D. A. Zuev, S. V. Makarov, I. S. Mukhin, V. A. Milichko, S. V. Starikov, I. A. Morozov, I. I. Shishkin, A. E. Krasnok, and P. A. Belov, “Fabrication of hybrid nanostructures via nanoscale laser-induced reshaping for advanced light manipulation,” Adv. Mater. 28(16), 3087–3093 (2016).
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2015 (5)

S. Zhang, R. Jiang, Y. M. Xie, Q. Ruan, B. Yang, J. Wang, and H. Q. Lin, “Colloidal moderate-refractive-index Cu(2)O nanospheres as visible-region nanoantennas with electromagnetic resonance and directional light-scattering properties,” Adv. Mater. 27(45), 7432–7439 (2015).
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R. Verre, Z. J. Yang, T. Shegai, and M. Käll, “Optical magnetism and plasmonic Fano resonances in metal-insulator-metal oligomers,” Nano Lett. 15(3), 1952–1958 (2015).
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A. E. Miroshnichenko, A. B. Evlyukhin, Y. F. Yu, R. M. Bakker, A. Chipouline, A. I. Kuznetsov, B. Luk’yanchuk, B. N. Chichkov, and Y. S. Kivshar, “Nonradiating anapole modes in dielectric nanoparticles,” Nat. Commun. 6(1), 8069 (2015).
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D. Hu, P. Wang, L. Pang, F. Gao, and J. Du, “Pure magnetic resonances controlled by the relative azimuth angle between meta-atoms,” Opt. Express 23(14), 17675–17686 (2015).
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A. Pors, S. K. Andersen, and S. I. Bozhevolnyi, “Unidirectional scattering by nanoparticles near substrates: generalized Kerker conditions,” Opt. Express 23(22), 28808–28828 (2015).
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2014 (5)

X. Ci, B. Wu, Y. Liu, G. Chen, E. Wu, and H. Zeng, “Magnetic-based Fano resonance of hybrid silicon-gold nanocavities in the near-infrared region,” Opt. Express 22(20), 23749–23758 (2014).
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S. Liu, M. B. Sinclair, T. S. Mahony, Y. C. Jun, S. Campione, J. Ginn, D. A. Bender, J. R. Wendt, J. F. Ihlefeld, P. G. Clem, J. B. Wright, and I. Brener, “Optical magnetic mirrors without metals,” Optica 1(4), 250 (2014).
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F. Monticone and A. Alù, “The quest for optical magnetism: from split-ring resonators to plasmonic nanoparticles and nanoclusters,” J. Mater. Chem. C Mater. Opt. Electron. Devices 2(43), 9059–9072 (2014).
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M. R. Shcherbakov, D. N. Neshev, B. Hopkins, A. S. Shorokhov, I. Staude, E. V. Melik-Gaykazyan, M. Decker, A. A. Ezhov, A. E. Miroshnichenko, I. Brener, A. A. Fedyanin, and Y. S. Kivshar, “Enhanced third-harmonic generation in silicon nanoparticles driven by magnetic response,” Nano Lett. 14(11), 6488–6492 (2014).
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Y. Yang, I. I. Kravchenko, D. P. Briggs, and J. Valentine, “All-dielectric metasurface analogue of electromagnetically induced transparency,” Nat. Commun. 5(1), 5753 (2014).
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2013 (4)

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(4), 1806–1809 (2013).
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F. Shafiei, F. Monticone, K. Q. Le, X. X. Liu, T. Hartsfield, A. Alù, and X. Li, “A subwavelength plasmonic metamolecule exhibiting magnetic-based optical Fano resonance,” Nat. Nanotechnol. 8(2), 95–99 (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(9), 7824–7832 (2013).
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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(1), 1527 (2013).
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2012 (6)

J. C. Ginn, I. Brener, D. W. Peters, J. R. Wendt, J. O. Stevens, P. F. Hines, L. I. Basilio, L. K. Warne, J. F. Ihlefeld, P. G. Clem, and M. B. Sinclair, “Realizing optical magnetism from dielectric metamaterials,” Phys. Rev. Lett. 108(9), 097402 (2012).
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A. B. Evlyukhin, S. M. Novikov, U. Zywietz, R. L. Eriksen, C. Reinhardt, S. I. Bozhevolnyi, and B. N. Chichkov, “Demonstration of magnetic dipole resonances of dielectric nanospheres in the visible region,” Nano Lett. 12(7), 3749–3755 (2012).
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N. I. Zheludev and Y. S. Kivshar, “From metamaterials to metadevices,” Nat. Mater. 11(11), 917–924 (2012).
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A. I. Kuznetsov, A. E. Miroshnichenko, Y. H. Fu, J. Zhang, and B. Luk’yanchuk, “Magnetic light,” Sci. Rep. 2(1), 492 (2012).
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A. E. Miroshnichenko, B. Luk’yanchuk, S. A. Maier, and Y. S. Kivshar, “Optically induced interaction of magnetic moments in hybrid metamaterials,” ACS Nano 6(1), 837–842 (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(6), 5489–5497 (2012).
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2011 (2)

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(6), 4815–4826 (2011).
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A. B. Evlyukhin, C. Reinhardt, and B. N. Chichkov, “Multipole light scattering by nonspherical nanoparticles in the discrete dipole approximation,” Phys. Rev. B Condens. Matter Mater. Phys. 84(23), 235429 (2011).
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2010 (1)

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 Condens. Matter Mater. Phys. 82(4), 045404 (2010).
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2009 (1)

M. Burresi, D. van Oosten, T. Kampfrath, H. Schoenmaker, R. Heideman, A. Leinse, and L. Kuipers, “Probing the magnetic field of light at optical frequencies,” Science 326(5952), 550–553 (2009).
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2008 (1)

N. Liu, H. Guo, L. Fu, S. Kaiser, H. Schweizer, and H. Giessen, “Three-dimensional photonic metamaterials at optical frequencies,” Nat. Mater. 7(1), 31–37 (2008).
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2007 (1)

2006 (1)

J. B. Pendry, D. Schurig, and D. R. Smith, “Controlling electromagnetic fields,” Science 312(5781), 1780–1782 (2006).
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2005 (2)

A. N. Grigorenko, A. K. Geim, H. F. Gleeson, Y. Zhang, A. A. Firsov, I. Y. Khrushchev, and J. Petrovic, “Nanofabricated media with negative permeability at visible frequencies,” Nature 438(7066), 335–338 (2005).
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V. M. Shalaev, W. Cai, U. K. Chettiar, H.-K. Yuan, A. K. Sarychev, V. P. Drachev, and A. V. Kildishev, “Negative index of refraction in optical metamaterials,” Opt. Lett. 30(24), 3356–3358 (2005).
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2000 (1)

J. B. Pendry, “Negative refraction makes a perfect lens,” Phys. Rev. Lett. 85(18), 3966–3969 (2000).
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1999 (1)

J. B. Pendry, A. J. Holden, D. J. Robbins, and W. J. Stewart, “Magnetism from conductors and enhanced nonlinear phenomena,” IEEE Trans. Microw. Theory Tech. 47(11), 2075–2084 (1999).
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P. B. Johnson and R. W. Christy, “Optical constants of the noble metals,” Phys. Rev. B 6(12), 4370–4379 (1972).
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Abass, A.

A. Vaskin, S. Mashhadi, M. Steinert, K. E. Chong, D. Keene, S. Nanz, A. Abass, E. Rusak, D. Y. Choi, I. Fernandez-Corbaton, T. Pertsch, C. Rockstuhl, M. A. Noginov, Y. S. Kivshar, D. N. Neshev, N. Noginova, and I. Staude, “Manipulation of magnetic dipole emission from Eu(3+) with Mie-resonant dielectric metasurfaces,” Nano Lett. 19(2), 1015–1022 (2019).
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Addamane, S.

S. Liu, A. Vaskin, S. Addamane, B. Leung, M. C. Tsai, Y. Yang, P. P. Vabishchevich, G. A. Keeler, G. Wang, X. He, Y. Kim, N. F. Hartmann, H. Htoon, S. K. Doorn, M. Zilk, T. Pertsch, G. Balakrishnan, M. B. Sinclair, I. Staude, and I. Brener, “Light-emitting metasurfaces: simultaneous control of spontaneous emission and far-field radiation,” Nano Lett. 18(11), 6906–6914 (2018).
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Ageev, E.

Y. Sun, I. Sinev, A. Zalogina, E. Ageev, H. Shamkhi, F. Komissarenko, I. Morozov, S. Lepeshov, V. Milichko, S. Makarov, I. Mukhin, and D. Zuev, “Reconfigurable near-field enhancement with hybrid metal-dielectric oligomers,” Laser Photonics Rev. 13(2), 1800274 (2019).
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Aizpurua, J.

Alaee, R.

R. Alaee, C. Rockstuhl, and I. Fernandez-Corbaton, “Exact multipolar decompositions with applications in nanophotonics,” Adv. Opt. Mater. 7(1), 1800783 (2019).
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Albella, P.

T. Shibanuma, G. Grinblat, P. Albella, and S. A. Maier, “Efficient third harmonic generation from metal-dielectric hybrid nanoantennas,” Nano Lett. 17(4), 2647–2651 (2017).
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Albooyeh, M.

J. Zeng, M. Darvishzadeh-Varcheie, M. Albooyeh, M. Rajaei, M. Kamandi, M. Veysi, E. O. Potma, F. Capolino, and H. K. Wickramasinghe, “Exclusive magnetic excitation enabled by structured light illumination in a nanoscale Mie resonator,” ACS Nano 12(12), 12159–12168 (2018).
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Alù, A.

F. Monticone and A. Alù, “The quest for optical magnetism: from split-ring resonators to plasmonic nanoparticles and nanoclusters,” J. Mater. Chem. C Mater. Opt. Electron. Devices 2(43), 9059–9072 (2014).
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F. Shafiei, F. Monticone, K. Q. Le, X. X. Liu, T. Hartsfield, A. Alù, and X. Li, “A subwavelength plasmonic metamolecule exhibiting magnetic-based optical Fano resonance,” Nat. Nanotechnol. 8(2), 95–99 (2013).
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Andersen, S. K.

Bakker, R. M.

A. E. Miroshnichenko, A. B. Evlyukhin, Y. F. Yu, R. M. Bakker, A. Chipouline, A. I. Kuznetsov, B. Luk’yanchuk, B. N. Chichkov, and Y. S. Kivshar, “Nonradiating anapole modes in dielectric nanoparticles,” Nat. Commun. 6(1), 8069 (2015).
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Balakrishnan, G.

S. Liu, A. Vaskin, S. Addamane, B. Leung, M. C. Tsai, Y. Yang, P. P. Vabishchevich, G. A. Keeler, G. Wang, X. He, Y. Kim, N. F. Hartmann, H. Htoon, S. K. Doorn, M. Zilk, T. Pertsch, G. Balakrishnan, M. B. Sinclair, I. Staude, and I. Brener, “Light-emitting metasurfaces: simultaneous control of spontaneous emission and far-field radiation,” Nano Lett. 18(11), 6906–6914 (2018).
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Barcikowski, S.

C. Zaza, I. L. Violi, J. Gargiulo, G. Chiarelli, L. Schumacher, J. Jakobi, J. Olmos-Trigo, E. Cortes, M. Konig, S. Barcikowski, S. Schlucker, J. J. Saenz, S. A. Maier, and F. D. Stefani, “Size-Selective Optical Printing of Silicon Nanoparticles through Their Dipolar Magnetic Resonance,” ACS Photonics 6(4), 815–822 (2019).
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Basilio, L. I.

J. C. Ginn, I. Brener, D. W. Peters, J. R. Wendt, J. O. Stevens, P. F. Hines, L. I. Basilio, L. K. Warne, J. F. Ihlefeld, P. G. Clem, and M. B. Sinclair, “Realizing optical magnetism from dielectric metamaterials,” Phys. Rev. Lett. 108(9), 097402 (2012).
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Belitsch, M.

G. Schaffernak, M. K. Krug, M. Belitsch, M. Gašparić, H. Ditlbacher, U. Hohenester, J. R. Krenn, and A. Hohenau, “Plasmonic dispersion relations and intensity enhancement of metal-insulator-metal nanodisks,” ACS Photonics 5(12), 4823–4827 (2018).
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Belov, P.

S. Lepeshov, A. Krasnok, I. Mukhin, D. Zuev, A. Gudovskikh, V. Milichko, P. Belov, and A. Miroshnichenko, “Fine-tuning of the magnetic Fano resonance in hybrid oligomers via fs-laser-induced reshaping,” ACS Photonics 4(3), 536–543 (2017).
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Belov, P. A.

S. I. Lepeshov, A. E. Krasnok, P. A. Belov, and A. E. Miroshnichenko, “Hybrid nanophotonics,” Phys. Uspekhi 61(11), 1035–1050 (2018).
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D. A. Zuev, S. V. Makarov, I. S. Mukhin, V. A. Milichko, S. V. Starikov, I. A. Morozov, I. I. Shishkin, A. E. Krasnok, and P. A. Belov, “Fabrication of hybrid nanostructures via nanoscale laser-induced reshaping for advanced light manipulation,” Adv. Mater. 28(16), 3087–3093 (2016).
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Bender, D. A.

Berté, R.

G. Grinblat, R. Berté, M. P. Nielsen, Y. Li, R. F. Oulton, and S. A. Maier, “Sub-20 fs all-optical switching in a single Au-clad Si nanodisk,” Nano Lett. 18(12), 7896–7900 (2018).
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A. Pors, S. K. Andersen, and S. I. Bozhevolnyi, “Unidirectional scattering by nanoparticles near substrates: generalized Kerker conditions,” Opt. Express 23(22), 28808–28828 (2015).
[Crossref] [PubMed]

A. B. Evlyukhin, S. M. Novikov, U. Zywietz, R. L. Eriksen, C. Reinhardt, S. I. Bozhevolnyi, and B. N. Chichkov, “Demonstration of magnetic dipole resonances of dielectric nanospheres in the visible region,” Nano Lett. 12(7), 3749–3755 (2012).
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Brener, I.

S. Liu, A. Vaskin, S. Addamane, B. Leung, M. C. Tsai, Y. Yang, P. P. Vabishchevich, G. A. Keeler, G. Wang, X. He, Y. Kim, N. F. Hartmann, H. Htoon, S. K. Doorn, M. Zilk, T. Pertsch, G. Balakrishnan, M. B. Sinclair, I. Staude, and I. Brener, “Light-emitting metasurfaces: simultaneous control of spontaneous emission and far-field radiation,” Nano Lett. 18(11), 6906–6914 (2018).
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M. R. Shcherbakov, D. N. Neshev, B. Hopkins, A. S. Shorokhov, I. Staude, E. V. Melik-Gaykazyan, M. Decker, A. A. Ezhov, A. E. Miroshnichenko, I. Brener, A. A. Fedyanin, and Y. S. Kivshar, “Enhanced third-harmonic generation in silicon nanoparticles driven by magnetic response,” Nano Lett. 14(11), 6488–6492 (2014).
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S. Liu, M. B. Sinclair, T. S. Mahony, Y. C. Jun, S. Campione, J. Ginn, D. A. Bender, J. R. Wendt, J. F. Ihlefeld, P. G. Clem, J. B. Wright, and I. Brener, “Optical magnetic mirrors without metals,” Optica 1(4), 250 (2014).
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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(9), 7824–7832 (2013).
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J. C. Ginn, I. Brener, D. W. Peters, J. R. Wendt, J. O. Stevens, P. F. Hines, L. I. Basilio, L. K. Warne, J. F. Ihlefeld, P. G. Clem, and M. B. Sinclair, “Realizing optical magnetism from dielectric metamaterials,” Phys. Rev. Lett. 108(9), 097402 (2012).
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Briggs, D. P.

Y. Yang, I. I. Kravchenko, D. P. Briggs, and J. Valentine, “All-dielectric metasurface analogue of electromagnetically induced transparency,” Nat. Commun. 5(1), 5753 (2014).
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Burresi, M.

M. Burresi, D. van Oosten, T. Kampfrath, H. Schoenmaker, R. Heideman, A. Leinse, and L. Kuipers, “Probing the magnetic field of light at optical frequencies,” Science 326(5952), 550–553 (2009).
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Cai, W.

Camacho-Morales, R.

L. Xu, M. Rahmani, K. Zangeneh Kamali, A. Lamprianidis, L. Ghirardini, J. Sautter, R. Camacho-Morales, H. Chen, M. Parry, I. Staude, G. Zhang, D. Neshev, and A. E. Miroshnichenko, “Boosting third-harmonic generation by a mirror-enhanced anapole resonator,” Light Sci. Appl. 7(1), 44 (2018).
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Campione, S.

Cao, Y.

Y. Zhang, Y. Xu, S. Chen, H. Lu, K. Chen, Y. Cao, A. E. Miroshnichenko, M. Gu, and X. Li, “Ultra-broadband directional scattering by colloidally lithographed high-Index Mie resonant oligomers and their energy-harvesting applications,” ACS Appl. Mater. Interfaces 10(19), 16776–16782 (2018).
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Capolino, F.

J. Zeng, M. Darvishzadeh-Varcheie, M. Albooyeh, M. Rajaei, M. Kamandi, M. Veysi, E. O. Potma, F. Capolino, and H. K. Wickramasinghe, “Exclusive magnetic excitation enabled by structured light illumination in a nanoscale Mie resonator,” ACS Nano 12(12), 12159–12168 (2018).
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Chantada, L.

Chen, G.

Chen, H.

L. Xu, M. Rahmani, K. Zangeneh Kamali, A. Lamprianidis, L. Ghirardini, J. Sautter, R. Camacho-Morales, H. Chen, M. Parry, I. Staude, G. Zhang, D. Neshev, and A. E. Miroshnichenko, “Boosting third-harmonic generation by a mirror-enhanced anapole resonator,” Light Sci. Appl. 7(1), 44 (2018).
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Chen, J. W.

W. Y. Tsai, T. L. Chung, H. H. Hsiao, J. W. Chen, R. J. Lin, P. C. Wu, G. Sun, C. M. Wang, H. Misawa, and D. P. Tsai, “Second harmonic light manipulation with vertical split ring resonators,” Adv. Mater. 31(7), e1806479 (2019).
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Y. Zhang, Y. Xu, S. Chen, H. Lu, K. Chen, Y. Cao, A. E. Miroshnichenko, M. Gu, and X. Li, “Ultra-broadband directional scattering by colloidally lithographed high-Index Mie resonant oligomers and their energy-harvesting applications,” ACS Appl. Mater. Interfaces 10(19), 16776–16782 (2018).
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Y. Zhang, Y. Xu, S. Chen, H. Lu, K. Chen, Y. Cao, A. E. Miroshnichenko, M. Gu, and X. Li, “Ultra-broadband directional scattering by colloidally lithographed high-Index Mie resonant oligomers and their energy-harvesting applications,” ACS Appl. Mater. Interfaces 10(19), 16776–16782 (2018).
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Chettiar, U. K.

Chiarelli, G.

C. Zaza, I. L. Violi, J. Gargiulo, G. Chiarelli, L. Schumacher, J. Jakobi, J. Olmos-Trigo, E. Cortes, M. Konig, S. Barcikowski, S. Schlucker, J. J. Saenz, S. A. Maier, and F. D. Stefani, “Size-Selective Optical Printing of Silicon Nanoparticles through Their Dipolar Magnetic Resonance,” ACS Photonics 6(4), 815–822 (2019).
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Chichkov, B. N.

A. B. Evlyukhin, T. Fischer, C. Reinhardt, and B. N. Chichkov, “Optical theorem and multipole scattering of light by arbitrarily shaped nanoparticles,” Phys. Rev. B 94(20), 205434 (2016).
[Crossref]

A. E. Miroshnichenko, A. B. Evlyukhin, Y. F. Yu, R. M. Bakker, A. Chipouline, A. I. Kuznetsov, B. Luk’yanchuk, B. N. Chichkov, and Y. S. Kivshar, “Nonradiating anapole modes in dielectric nanoparticles,” Nat. Commun. 6(1), 8069 (2015).
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A. B. Evlyukhin, S. M. Novikov, U. Zywietz, R. L. Eriksen, C. Reinhardt, S. I. Bozhevolnyi, and B. N. Chichkov, “Demonstration of magnetic dipole resonances of dielectric nanospheres in the visible region,” Nano Lett. 12(7), 3749–3755 (2012).
[Crossref] [PubMed]

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Figures (5)

Fig. 1
Fig. 1 Physical mechanism to achieve ideal MD resonances with metal-dielectric-metal hybridized nanodisks. (a) Plasmon hybridization scheme of a metallic nanodisk dimer, where a higher energy antibonding and a lower energy bonding resonance can be excited. (b) The scattering properties of the hybridized bonding resonance for metal-dielectric-metal hybridized nanodisks with a low and (c) a high refractive index dielectric spacer layer. Depending on the geometry parameters and the dielectric layer refractive index, directional forward scattering or an ideal MD resonance can be achieved, where (I) the NPs are excited with a x-polarized incidence that propagating along the z-axis, (II) the conduction currents (the blue arrows) and the displacement currents (the red arrows) within the hybridized nanodisks, (III) the generated equivalent multipoles, and (IV) the far-field scattering patterns.
Fig. 2
Fig. 2 Suppressing ED scattering for the bonding resonance by manipulating the lower metallic nanodisk thickness Tdn. (a) The scattering and multipolar decomposition results for the hybridized nanodisk with Tdn = 20 nm, (b) 30 nm and (c) 50 nm, where the insets show the normalized current density distributions at the center cross section of the xz plane around the bonding resonance. The dotted-lines represent the scattering contribution of the TD for the hybridized structure, and the dashed-lines denote the ED scattering contribution from the dielectric layer, which are scaled by a factor of 10. (d - f) The corresponding electric (the upper panels) and magnetic (the lower panel) near-field enhancement distributions at the center cross section of the xz plane for the bonding resonances, where the number on the lower-left corner is the maximum enhancement factor. (g - i) The normalized three- (the left panels) and two-dimensional (the right panels) far-field scattering patterns for the three hybridized nanodisks. (j) The scattering and multipolar decomposition results for the hybridized nanodisk when Tdn is in the range of 20 – 80 nm (the upper four panels), and the MD contribution to the total scattering (the lowest panel). The dielectric layer is supposed to be SiO2 with nspa = 1.45, silver is used for the metallic disks, the NPs are supposed to be embedded in air, the diameter of the disks D = 160 nm, the thickness of the dielectric layer Tspa = 60 nm, the thickness of the upper metallic nanodisk Tup = 30 nm, and the incident x-polarized plane wave is propagating along the z-axis.
Fig. 3
Fig. 3 The contribution of individual multipoles at the bonding resonance by adjusting the lower metallic nanodisk thickness Tdn, which is calculated as the ratio between the intensity of individual multipoles and the total scattering, and the geometry parameters for the hybridized nanodisks are identical with that of Fig. 2.
Fig. 4
Fig. 4 The realization of ideal MD resonance by manipulating the refractive index of the dielectric layer nspa for the hybridized naodisks. (a) The scattering and multipolar decomposition results for the hybridized nanodisk with nspa = 2.0, (b) 3.2 and (c) 5.6, where the insets show the normalized current density distributions at the center cross section of the xz plane around the bonding resonance. The black and red dotted lines in (c) show, respectively, the total scattering spectrum and the MD contribution for oblique incidence, where the incident angle is 45°, and the polarization is along the x-axis. (d - f) The corresponding electric (the upper panels) and magnetic (the lower panel) near-field enhancement distributions at the center cross section of the xz plane for the bonding resonances, where the number on the lower-left corner is the maximum enhancement factor. (g - i) The normalized three- (the left panels) and two-dimensional (the right panels) far-field scattering patterns for the three hybridized nanodisks. (j) The scattering and multipolar decomposition results for the hybridized nanodisk when nspa is in the range of 1 – 5.8 (the upper four panels), and the MD contribution to the total scattering (the lowest panel), where the ED and EQ spectra are scaled by a factor of 2 and 10, respectively. The diameter of the disks D = 160 nm, the thickness of the dielectric layer Tspa = 60 nm, the thickness of the upper silver nanodisk Tup = 30 nm, and the lower silver nanodisk thickness Tdn = 50 nm, the NPs are supposed to be embedded in air, and the incident x-polarized plane wave is propagating along the z-axis.
Fig. 5
Fig. 5 The variations of the current intensity ratios (a) and the contribution of individual multipoles (b) at the bonding resonance by adjusting the dielectric layer refractive index nspa, where the geometry parameters for the hybridized nanodisks are identical with that of Fig. 4.

Equations (4)

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J spa =iω ε 0 ε r E=iω ε 0 n spa 2 E
P= ε 0 ( ε p ε d )E
P(r)= P( r ) δ(r r )d r
P sca = k 0 4 12π ε 0 2 v d μ 0 | p+ i k d v d T | 2 + k 0 4 ε d 12π ε 0 v d | m | 2 + k 0 6 ε d 1440π ε 0 2 v d μ 0 αβ | Q αβ | 2 + k 0 6 ε d 2 160π ε 0 v d αβ | M αβ | 2 + k 0 8 ε d 2 3780π ε 0 2 v d μ 0 αβγ | O αβγ | 2

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