Core-shell diamond-like silicon photonic crystals from 3D polymer templates created by holographic lithography

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Moon, Jun Hyuk
Dong, Wenting
Perry, Joseph W
Adibi, Ali
Yang, Seung-Man
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We have fabricated diamond-like silicon photonic crystals through a sequential silica/silicon chemical vapor deposition (CVD) process from the corresponding polymer templates photopatterned by holographic lithography. Core-shell morphology is revealed due to the partial backfilling of the interstitial pores. To model the shell formation and investigate its effect to the bandgap properties, we developed a two-parameter level-set approach that closely approximated the core-shell morphology, and compare the bandgap simulation with the measured optical properties of the 3D crystals at each processing step. Both experimental and calculation results suggest that a complete filling is necessary to maximize the photonic bandgap in the diamond-like structures.

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2006-06-26
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Copyright 2006 Optical Society of America, Inc. Postprint version. Published in Optics Express, Volume 14, Issue 13, June 2006, 6 pages .
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