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On the sensitivity of generic porous optical sensors

Published 22 Feb 2012 in physics.optics | (1202.5028v1)

Abstract: A porous material was considered as a platform for optical sensing. It was envisaged that the porous material was infiltrated by a fluid which contains an agent to be sensed. Changes in the optical properties of the infiltrated porous material provide the basis for detection of the agent to be sensed. Using a homogenization approach based on the Bruggeman formalism, wherein the infiltrated porous material was regarded as a homogenized composite material, the sensitivity of such a sensor was investigated. For the case of an isotropic dielectric porous material of relative permittivity $\epsilona$ and an isotropic dielectric fluid of relative permittivity $\epsilonb$, it was found that the sensitivity was maximized when there was a large contrast between $\epsilona$ and $\epsilonb$; the maximum sensitivity was achieved at mid-range values of porosity. Especially high sensitivities may be achieved for $\epsilonb$ close to unity when $\epsilona >> 1$, for example. Furthermore, higher sensitivities may be achieved by incorporating pores which have elongated spheroidal shapes.

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