15 September 2004 Photonic bandgap approach in designing microcavity-based optical sensors
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Proceedings Volume 5450, Photonic Crystal Materials and Nanostructures; (2004); doi: 10.1117/12.544850
Event: Photonics Europe, 2004, Strasbourg, France
Abstract
Multi-layer structures, such as Bragg reflectors, rugate filters, and optical microcavities are widely used in optical sensing. They are characterised by a periodical modulation of the refractive index so that they can be classified as 1-D photonic crystals. In this communication, the optical features of such a class of sensors are analyzed from the band structure point of view. This general approach is then applied to the case of vapour sensors based on a porous silicon microcavity. A numerical analysis of the photonic bands, when the porous microcavity is exposed at chemical vapours, is presented and discussed for design optimisation purposes. In particular, we investigate how the photonic band gap changes when a volatile substance condensates in the silicon pores inducing a variation of the refractive indices of the layers forming the microcavity. Results are also compared with those obtained by the usual optical transfer matrix method.
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Luigi Moretti, Luca De Stefano, Vito Mocella, Ivo Rendina, "Photonic bandgap approach in designing microcavity-based optical sensors", Proc. SPIE 5450, Photonic Crystal Materials and Nanostructures, (15 September 2004); doi: 10.1117/12.544850; https://doi.org/10.1117/12.544850
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KEYWORDS
Optical microcavities

Reflectivity

Photonic crystals

Silicon

Refractive index

Liquids

Dielectrics

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