Engineering scattering patterns with asymmetric dielectric nanorods

Suhandoko D. Isro; Alexander A. Iskandar; Yuri S. Kivshar; Ilya V. Shadrivov

doi:10.1364/OE.26.032624

Engineering scattering patterns with asymmetric dielectric nanorods

Suhandoko D. Isro, Alexander A. Iskandar, Yuri S. Kivshar, Ilya V. Shadrivov^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

14 Citations (Scopus)

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.

Original language	English
Pages (from-to)	32624-32630
Number of pages	7
Journal	Optics Express
Volume	26
Issue number	25
DOIs	https://doi.org/10.1364/OE.26.032624
Publication status	Published - 10 Dec 2018

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title = "Engineering scattering patterns with asymmetric dielectric nanorods",

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.",

author = "Isro, \{Suhandoko D.\} and Iskandar, \{Alexander A.\} and Kivshar, \{Yuri S.\} and Shadrivov, \{Ilya V.\}",

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AU - Iskandar, Alexander A.

AU - Kivshar, Yuri S.

AU - Shadrivov, Ilya V.

PY - 2018/12/10

Y1 - 2018/12/10

N2 - 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.

AB - 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.

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Engineering scattering patterns with asymmetric dielectric nanorods

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