Investigation of 1d Photonic Crystal Based on Nano-porous Silicon Multilayer for Optical Filtering

Do Thuy Chi, Bui Huy, Nguyen Thuy Van, Pham Van Hoi

Author affiliations

Authors

Do Thuy Chi Institute of Materials Science, VAST
Bui Huy Institute of Materials Science, VAST
Nguyen Thuy Van
Pham Van Hoi Institute of Materials Science, VAST

DOI:

https://doi.org/10.15625/0868-3166/21/1/101

Keywords:

transfer matrix method, optical filter, nano-porous silicon, 1D photonic crystal

Abstract

We present the fabrication, simulation, and measurements of 1D photonic crystal based on nano-porous silicon multilayer designed as an optical interference filter. Using electro-chemical etching with timely repeat steps of applied current densities, we fabricated a multilayer structure composed of alternating high- and low-index layer which achieved 90% power reflectivity at wavelength range of 1400-3000 nm. The simulation is relying on the Transfer Matrix Method (TMM) to design and predict the optical properties of nano-porous silicon multilayer as well as the relation between anodization parameters with reflection spectra. The measured reflection and transmission spectra of the nano-porous silicon multilayer show good agreement with simulation. This technique could provide a convenient and economical method to produce filters, cavities, and graded-index dielectric waveguides in the future.

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Published

25-06-2011

How to Cite

[1]

D. T. Chi, B. Huy, N. T. Van, and P. V. Hoi, “Investigation of 1d Photonic Crystal Based on Nano-porous Silicon Multilayer for Optical Filtering”, Comm. Phys., vol. 21, no. 1, p. 89, Jun. 2011.

IEEE

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Issue

Vol. 21 No. 1 (2011)

Section

Papers

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