Title :
Silicon-on-Insulator (SOI) Ring Resonator-Based Integrated Optical Hydrogen Sensor
Author :
Yebo, N.A. ; Taillaert, D. ; Roels, J. ; Lahem, D. ; Debliquy, M. ; Van Thourhout, D. ; Baets, R.
Author_Institution :
Dept. of Inf. Technol., Ghent Univ., Ghent
fDate :
7/15/2009 12:00:00 AM
Abstract :
We demonstrate a novel, highly sensitive integrated hydrogen sensor based on a silicon ring resonator on the silicon-on-insulator platform. The hydrogen sensitive element in the sensor structure is a platinum-doped tungsten oxide catalytic coating. The catalytic combustion of hydrogen in air leads to a local temperature rise in the ring resonator. The resulting thermo-optic effect shifts the ring resonator resonance. Resonance wavelength shifts higher than a nanometer are measured for hydrogen concentrations below the 4% lower explosion limit. A potentially tunable sensitivity of around 480 pm shift per %H2 is achieved at an operating temperature of about 40degC.
Keywords :
catalysis; elemental semiconductors; gas sensors; integrated optics; optical films; optical resonators; optical sensors; optical tuning; platinum; silicon-on-insulator; thermo-optical effects; tungsten compounds; WO3:Pt; catalytic combustion; integrated optical hydrogen sensor; platinum-doped tungsten oxide catalytic coating; potentially tunable sensitivity; resonance wavelength shift; ring resonator; silicon-on-insulator; thermo-optic effect; Integrated optics; lower explosion limit (LEL); resonance shift; thermo-optic; tungsten oxide ( $hbox{WO}_{3}$);
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2009.2021073
