Invisible metasurfaces based on high-order Kerker and anapole effects

Research output: Contribution to journalConference articleResearchpeer review

Authors

  • Hadi K. Shamkhi
  • Kseniia V. Baryshnikova
  • Andrey Sayanskiy
  • Pavel D. Terekhov
  • Egor A. Gurvitz
  • Adria Canos Valero
  • Alina Karabchevsky
  • Polina Kapitanova
  • Andrey B. Evlyukhin
  • Pavel Belov
  • Yuri Kivshar
  • Alexander S. Shalin

External Research Organisations

  • St. Petersburg National Research University of Information Technologies, Mechanics and Optics (ITMO)
  • Ben-Gurion University of the Negev
  • Laser Zentrum Hannover e.V. (LZH)
  • Australian National University
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Details

Original languageEnglish
Pages (from-to)1728-1729
Number of pages2
JournalInternational Conference on Metamaterials, Photonic Crystals and Plasmonics
Publication statusPublished - 2019
Externally publishedYes
Event10th International Conference on Metamaterials, Photonic Crystals and Plasmonics, META 2019 - Lisbon, Portugal
Duration: 23 Jul 201926 Jul 2019

Abstract

All-dielectric nanophotonics attracts more and more attention nowadays due to the possibility to control and configure light scattering on high-index semiconductor nanoparticles. It opens a room of opportunities for designing novel types of nanoscale elements and devices, paving the way to advanced technologies of light energy manipulation. One of the most pespective and interesting effects is directive light scattering provided by the so-called Kerker and anti-Kerker effects giving a possibility to realize Huygens light sources, fully transparent metasurfaces, different types of nanoantennae etc. Another one corresponds to the realization of so-called “anapole states” providing near-zero scattering accompanied with strong near-fields. Here we briefly review some new results on the induced invisibility regarding fully transparent metasurfaces based on the simultaneous cancellation of the forward and backward scattering via particular optical responses of multipoles (similar to Kerker effect), and invisible objects and structures governed by the novel type of anapoles – hybrid anapole states.

ASJC Scopus subject areas

Cite this

Invisible metasurfaces based on high-order Kerker and anapole effects. / Shamkhi, Hadi K.; Baryshnikova, Kseniia V.; Sayanskiy, Andrey et al.
In: International Conference on Metamaterials, Photonic Crystals and Plasmonics, 2019, p. 1728-1729.

Research output: Contribution to journalConference articleResearchpeer review

Shamkhi, HK, Baryshnikova, KV, Sayanskiy, A, Terekhov, PD, Gurvitz, EA, Valero, AC, Karabchevsky, A, Kapitanova, P, Evlyukhin, AB, Belov, P, Kivshar, Y & Shalin, AS 2019, 'Invisible metasurfaces based on high-order Kerker and anapole effects', International Conference on Metamaterials, Photonic Crystals and Plasmonics, pp. 1728-1729.
Shamkhi, H. K., Baryshnikova, K. V., Sayanskiy, A., Terekhov, P. D., Gurvitz, E. A., Valero, A. C., Karabchevsky, A., Kapitanova, P., Evlyukhin, A. B., Belov, P., Kivshar, Y., & Shalin, A. S. (2019). Invisible metasurfaces based on high-order Kerker and anapole effects. International Conference on Metamaterials, Photonic Crystals and Plasmonics, 1728-1729.
Shamkhi HK, Baryshnikova KV, Sayanskiy A, Terekhov PD, Gurvitz EA, Valero AC et al. Invisible metasurfaces based on high-order Kerker and anapole effects. International Conference on Metamaterials, Photonic Crystals and Plasmonics. 2019;1728-1729.
Shamkhi, Hadi K. ; Baryshnikova, Kseniia V. ; Sayanskiy, Andrey et al. / Invisible metasurfaces based on high-order Kerker and anapole effects. In: International Conference on Metamaterials, Photonic Crystals and Plasmonics. 2019 ; pp. 1728-1729.
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title = "Invisible metasurfaces based on high-order Kerker and anapole effects",
abstract = "All-dielectric nanophotonics attracts more and more attention nowadays due to the possibility to control and configure light scattering on high-index semiconductor nanoparticles. It opens a room of opportunities for designing novel types of nanoscale elements and devices, paving the way to advanced technologies of light energy manipulation. One of the most pespective and interesting effects is directive light scattering provided by the so-called Kerker and anti-Kerker effects giving a possibility to realize Huygens light sources, fully transparent metasurfaces, different types of nanoantennae etc. Another one corresponds to the realization of so-called “anapole states” providing near-zero scattering accompanied with strong near-fields. Here we briefly review some new results on the induced invisibility regarding fully transparent metasurfaces based on the simultaneous cancellation of the forward and backward scattering via particular optical responses of multipoles (similar to Kerker effect), and invisible objects and structures governed by the novel type of anapoles – hybrid anapole states.",
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note = "Funding Information: The authors acknowledge financial support from the Russian Foundation for Basic Research (grants 18-02- 00414 and 18-52-00005); the Ministry of Education and Science of the Russian Federation (Goszadanie, grant 3.4982.2017/6.7); The calculations of multipole moments have been supported by the Russian Science Foundation Grant No. 16-12-10287. ; 10th International Conference on Metamaterials, Photonic Crystals and Plasmonics, META 2019 ; Conference date: 23-07-2019 Through 26-07-2019",
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Download

TY - JOUR

T1 - Invisible metasurfaces based on high-order Kerker and anapole effects

AU - Shamkhi, Hadi K.

AU - Baryshnikova, Kseniia V.

AU - Sayanskiy, Andrey

AU - Terekhov, Pavel D.

AU - Gurvitz, Egor A.

AU - Valero, Adria Canos

AU - Karabchevsky, Alina

AU - Kapitanova, Polina

AU - Evlyukhin, Andrey B.

AU - Belov, Pavel

AU - Kivshar, Yuri

AU - Shalin, Alexander S.

N1 - Funding Information: The authors acknowledge financial support from the Russian Foundation for Basic Research (grants 18-02- 00414 and 18-52-00005); the Ministry of Education and Science of the Russian Federation (Goszadanie, grant 3.4982.2017/6.7); The calculations of multipole moments have been supported by the Russian Science Foundation Grant No. 16-12-10287.

PY - 2019

Y1 - 2019

N2 - All-dielectric nanophotonics attracts more and more attention nowadays due to the possibility to control and configure light scattering on high-index semiconductor nanoparticles. It opens a room of opportunities for designing novel types of nanoscale elements and devices, paving the way to advanced technologies of light energy manipulation. One of the most pespective and interesting effects is directive light scattering provided by the so-called Kerker and anti-Kerker effects giving a possibility to realize Huygens light sources, fully transparent metasurfaces, different types of nanoantennae etc. Another one corresponds to the realization of so-called “anapole states” providing near-zero scattering accompanied with strong near-fields. Here we briefly review some new results on the induced invisibility regarding fully transparent metasurfaces based on the simultaneous cancellation of the forward and backward scattering via particular optical responses of multipoles (similar to Kerker effect), and invisible objects and structures governed by the novel type of anapoles – hybrid anapole states.

AB - All-dielectric nanophotonics attracts more and more attention nowadays due to the possibility to control and configure light scattering on high-index semiconductor nanoparticles. It opens a room of opportunities for designing novel types of nanoscale elements and devices, paving the way to advanced technologies of light energy manipulation. One of the most pespective and interesting effects is directive light scattering provided by the so-called Kerker and anti-Kerker effects giving a possibility to realize Huygens light sources, fully transparent metasurfaces, different types of nanoantennae etc. Another one corresponds to the realization of so-called “anapole states” providing near-zero scattering accompanied with strong near-fields. Here we briefly review some new results on the induced invisibility regarding fully transparent metasurfaces based on the simultaneous cancellation of the forward and backward scattering via particular optical responses of multipoles (similar to Kerker effect), and invisible objects and structures governed by the novel type of anapoles – hybrid anapole states.

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