Engineering the refractive index of three-dimensional photonic crystals through multilayer deposition of cds films

Dario Buso; Nicoletti Elisa Nicoletti; Jiafang Li; Min Gu

doi:10.1364/OE.18.001033

Engineering the refractive index of three-dimensional photonic crystals through multilayer deposition of cds films

Dario Buso^*
, Nicoletti Elisa Nicoletti
, Jiafang Li
, Min Gu

^*Corresponding author for this work

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

8 Citations (Scopus)

Abstract

Woodpile photonic crystals are amongst the preferred candidates for the next generation of photonics components. However, the photocurable resists used to produce them still lack the optical properties (high-n, non-linearity) suitable for photonics applications. A chemical bath deposition protocol has been adapted to deposit high-n/non-linear chalcogenide CdS on the surface of Ormocer® woodpiles. The deposition parameters have been adjusted to obtain heterogeneous growth of CdS layers on the Ormocer® surface. The layers shift the photonic band-gap and increase its amplitude by more than 15%. Software simulation confirmed that the woodpile effective refractive index underwent an excess of 30% increase.

Original language	English
Pages (from-to)	1033-1040
Number of pages	8
Journal	Optics Express
Volume	18
Issue number	2
DOIs	https://doi.org/10.1364/OE.18.001033
Publication status	Published - 18 Jan 2010
Externally published	Yes

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10.1364/OE.18.001033

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title = "Engineering the refractive index of three-dimensional photonic crystals through multilayer deposition of cds films",

abstract = "Woodpile photonic crystals are amongst the preferred candidates for the next generation of photonics components. However, the photocurable resists used to produce them still lack the optical properties (high-n, non-linearity) suitable for photonics applications. A chemical bath deposition protocol has been adapted to deposit high-n/non-linear chalcogenide CdS on the surface of Ormocer{\textregistered} woodpiles. The deposition parameters have been adjusted to obtain heterogeneous growth of CdS layers on the Ormocer{\textregistered} surface. The layers shift the photonic band-gap and increase its amplitude by more than 15\%. Software simulation confirmed that the woodpile effective refractive index underwent an excess of 30\% increase.",

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AU - Buso, Dario

AU - Elisa Nicoletti, Nicoletti

AU - Li, Jiafang

AU - Gu, Min

PY - 2010/1/18

Y1 - 2010/1/18

N2 - Woodpile photonic crystals are amongst the preferred candidates for the next generation of photonics components. However, the photocurable resists used to produce them still lack the optical properties (high-n, non-linearity) suitable for photonics applications. A chemical bath deposition protocol has been adapted to deposit high-n/non-linear chalcogenide CdS on the surface of Ormocer® woodpiles. The deposition parameters have been adjusted to obtain heterogeneous growth of CdS layers on the Ormocer® surface. The layers shift the photonic band-gap and increase its amplitude by more than 15%. Software simulation confirmed that the woodpile effective refractive index underwent an excess of 30% increase.

AB - Woodpile photonic crystals are amongst the preferred candidates for the next generation of photonics components. However, the photocurable resists used to produce them still lack the optical properties (high-n, non-linearity) suitable for photonics applications. A chemical bath deposition protocol has been adapted to deposit high-n/non-linear chalcogenide CdS on the surface of Ormocer® woodpiles. The deposition parameters have been adjusted to obtain heterogeneous growth of CdS layers on the Ormocer® surface. The layers shift the photonic band-gap and increase its amplitude by more than 15%. Software simulation confirmed that the woodpile effective refractive index underwent an excess of 30% increase.

UR - https://www.scopus.com/pages/publications/75249103293

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SP - 1033

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JO - Optics Express

JF - Optics Express

IS - 2

ER -

Engineering the refractive index of three-dimensional photonic crystals through multilayer deposition of cds films

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