We have fabricated, and characterized a Bragg grating, having a pitch of 10 ?m, directly etched on a porous silicon-based planar waveguide to be used as an optical sensor for chemical substances. The transmission spectrum of this device shows a well-defined peak in the near infrared wavelength region due to a high order resonance of the Bragg grating. On exposure to different volatile organic compounds the peak undergoes distinct shifts. The phenomenon is fast and completely reversible. Limits of detection of hundred of ppm can be estimated from the experimental data. © 2008 Elsevier B.V. All rights reserved.
A porous silicon-based Bragg grating waveguide sensor for chemical monitoring
Marino Antigone;
2009
Abstract
We have fabricated, and characterized a Bragg grating, having a pitch of 10 ?m, directly etched on a porous silicon-based planar waveguide to be used as an optical sensor for chemical substances. The transmission spectrum of this device shows a well-defined peak in the near infrared wavelength region due to a high order resonance of the Bragg grating. On exposure to different volatile organic compounds the peak undergoes distinct shifts. The phenomenon is fast and completely reversible. Limits of detection of hundred of ppm can be estimated from the experimental data. © 2008 Elsevier B.V. All rights reserved.File in questo prodotto:
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