Polarization control of colors in resonant evanescent field scattering by silicon nanodisks [Invited]

Andrey B. Evlyukhin*, Sergey I. Bozhevolnyi

*Kontaktforfatter for dette arbejde

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Resumé

Using the multipole decomposition method, we study resonant evanescent field scattering by cylindrical silicon nanoparticles illuminated in the total internal reflection configuration. Scattering cross sections of nanodisks in the visible spectral range are considered, and the corresponding color representations of scattered radiation under white light illumination are simulated. It is demonstrated that the scattered light color can efficiently be controlled and tuned by the incident light polarization, with the relative contributions of nanodisk multipole moments playing a crucial role in the color formation. The polarization color control in resonant scattering by silicon nanodisks with different aspect ratios is studied in detail. The results obtained suggest new avenues for and exciting prospects in the development of color printing and multicolor displays operating on the basis of all-dielectric nanostructures.

OriginalsprogEngelsk
TidsskriftOptical Materials Express
Vol/bind9
Udgave nummer1
Sider (fra-til)151-161
ISSN2159-3930
DOI
StatusUdgivet - 1. jan. 2019

Fingeraftryk

Evanescent fields
Silicon
Scattering
Polarization
Color
Color printing
Light polarization
Aspect ratio
Nanostructures
Lighting
Display devices
Nanoparticles
Decomposition
Radiation

Citer dette

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abstract = "Using the multipole decomposition method, we study resonant evanescent field scattering by cylindrical silicon nanoparticles illuminated in the total internal reflection configuration. Scattering cross sections of nanodisks in the visible spectral range are considered, and the corresponding color representations of scattered radiation under white light illumination are simulated. It is demonstrated that the scattered light color can efficiently be controlled and tuned by the incident light polarization, with the relative contributions of nanodisk multipole moments playing a crucial role in the color formation. The polarization color control in resonant scattering by silicon nanodisks with different aspect ratios is studied in detail. The results obtained suggest new avenues for and exciting prospects in the development of color printing and multicolor displays operating on the basis of all-dielectric nanostructures.",
author = "Evlyukhin, {Andrey B.} and Bozhevolnyi, {Sergey I.}",
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Polarization control of colors in resonant evanescent field scattering by silicon nanodisks [Invited]. / Evlyukhin, Andrey B.; Bozhevolnyi, Sergey I.

I: Optical Materials Express, Bind 9, Nr. 1, 01.01.2019, s. 151-161.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

TY - JOUR

T1 - Polarization control of colors in resonant evanescent field scattering by silicon nanodisks [Invited]

AU - Evlyukhin, Andrey B.

AU - Bozhevolnyi, Sergey I.

PY - 2019/1/1

Y1 - 2019/1/1

N2 - Using the multipole decomposition method, we study resonant evanescent field scattering by cylindrical silicon nanoparticles illuminated in the total internal reflection configuration. Scattering cross sections of nanodisks in the visible spectral range are considered, and the corresponding color representations of scattered radiation under white light illumination are simulated. It is demonstrated that the scattered light color can efficiently be controlled and tuned by the incident light polarization, with the relative contributions of nanodisk multipole moments playing a crucial role in the color formation. The polarization color control in resonant scattering by silicon nanodisks with different aspect ratios is studied in detail. The results obtained suggest new avenues for and exciting prospects in the development of color printing and multicolor displays operating on the basis of all-dielectric nanostructures.

AB - Using the multipole decomposition method, we study resonant evanescent field scattering by cylindrical silicon nanoparticles illuminated in the total internal reflection configuration. Scattering cross sections of nanodisks in the visible spectral range are considered, and the corresponding color representations of scattered radiation under white light illumination are simulated. It is demonstrated that the scattered light color can efficiently be controlled and tuned by the incident light polarization, with the relative contributions of nanodisk multipole moments playing a crucial role in the color formation. The polarization color control in resonant scattering by silicon nanodisks with different aspect ratios is studied in detail. The results obtained suggest new avenues for and exciting prospects in the development of color printing and multicolor displays operating on the basis of all-dielectric nanostructures.

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DO - 10.1364/OME.9.000151

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