Nearly total omnidirectional reflection by a single layer of nanorods

Junjie Du; Zhifang Lin; S. T. Chui; Guangjiong Dong; Weiping Zhang

doi:10.1103/PhysRevLett.110.163902

Nearly total omnidirectional reflection by a single layer of nanorods

Junjie Du^*
, Zhifang Lin
, S. T. Chui
, Guangjiong Dong
, Weiping Zhang

^*Corresponding author for this work

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

37 Scopus citations

Abstract

It is shown that a single-layer array of high electric permittivity (high-ε) rods with a radius smaller than λ/10 is capable of reflecting more than 97% of the energy of optical waves with an arbitrary incident angle. Here, λ is the incident wavelength. The occurrence of the phenomenon depends on the construction of two particular grating modes (GMs) in the array which result in two corresponding transmitted wave components that cancel each other. The construction of the dominant GMs in the array benefits from the highly independent manipulability of the angular momenta components with opposite signs in high-ε particles. The effect offers the possibility to improve the optical elements integration level in on-chip optical circuits.

Original language	English
Article number	163902
Journal	Physical Review Letters
Volume	110
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevLett.110.163902
State	Published - 18 Apr 2013

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10.1103/PhysRevLett.110.163902

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title = "Nearly total omnidirectional reflection by a single layer of nanorods",

abstract = "It is shown that a single-layer array of high electric permittivity (high-ε) rods with a radius smaller than λ/10 is capable of reflecting more than 97\% of the energy of optical waves with an arbitrary incident angle. Here, λ is the incident wavelength. The occurrence of the phenomenon depends on the construction of two particular grating modes (GMs) in the array which result in two corresponding transmitted wave components that cancel each other. The construction of the dominant GMs in the array benefits from the highly independent manipulability of the angular momenta components with opposite signs in high-ε particles. The effect offers the possibility to improve the optical elements integration level in on-chip optical circuits.",

author = "Junjie Du and Zhifang Lin and Chui, \{S. T.\} and Guangjiong Dong and Weiping Zhang",

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AU - Du, Junjie

AU - Lin, Zhifang

AU - Chui, S. T.

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AU - Zhang, Weiping

PY - 2013/4/18

Y1 - 2013/4/18

N2 - It is shown that a single-layer array of high electric permittivity (high-ε) rods with a radius smaller than λ/10 is capable of reflecting more than 97% of the energy of optical waves with an arbitrary incident angle. Here, λ is the incident wavelength. The occurrence of the phenomenon depends on the construction of two particular grating modes (GMs) in the array which result in two corresponding transmitted wave components that cancel each other. The construction of the dominant GMs in the array benefits from the highly independent manipulability of the angular momenta components with opposite signs in high-ε particles. The effect offers the possibility to improve the optical elements integration level in on-chip optical circuits.

AB - It is shown that a single-layer array of high electric permittivity (high-ε) rods with a radius smaller than λ/10 is capable of reflecting more than 97% of the energy of optical waves with an arbitrary incident angle. Here, λ is the incident wavelength. The occurrence of the phenomenon depends on the construction of two particular grating modes (GMs) in the array which result in two corresponding transmitted wave components that cancel each other. The construction of the dominant GMs in the array benefits from the highly independent manipulability of the angular momenta components with opposite signs in high-ε particles. The effect offers the possibility to improve the optical elements integration level in on-chip optical circuits.

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JO - Physical Review Letters

JF - Physical Review Letters

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Nearly total omnidirectional reflection by a single layer of nanorods

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