Title :
A novel high temperature optical probe
Author :
Morse, T.F. ; Luo, Fei
Author_Institution :
Lab. for Lighwave Technol., Boston Univ., MA, USA
Abstract :
When a dielectric stack of 1/4 wave layers is deposited on an optical surface, a narrow band of wavelengths will be reflected. The peak reflection shifts with temperature change of the dielectric stack. This spectral shift is caused by the dn/dT and dL/dT of the film stack. Using a solid state spectrometer, the spectral shift can be traced to measure the temperature change. Currently, we can accurately measure temperatures from liquid nitrogen temperature to 1200°C using a silica fiber. By depositing high temperature dielectric layers on a sapphire disc, we can measure temperature from the back reflected light of this disc, which can be mounted at the end of a small alumina tube. A collimation lens is used for illumination and collection of the reflected light signal from the disk. We have developed a sensitive algorithm for accurately tracing the spectral shift and converting this spectral shift into temperature.
Keywords :
alumina; dielectric thin films; fibre optic sensors; high-temperature techniques; light reflection; optical collimators; optical multilayers; optical sensors; sapphire; silicon compounds; temperature sensors; visible spectrometers; 1200 degC; Al2O3; SiO2; alumina tube; collimation lens; high temperature dielectric layers; high temperature optical probe; multimode silica optical fiber; narrow reflected wavelength band; quarter-wave layer dielectric stack; sapphire disc; solid state spectrometer; spectral shift measurement; temperature induced peak reflection shift; temperature measurement; thin film stack; Dielectric measurements; Narrowband; Optical films; Optical reflection; Optical sensors; Optical surface waves; Probes; Surface waves; Temperature measurement; Temperature sensors;
Conference_Titel :
Sensors, 2004. Proceedings of IEEE
Print_ISBN :
0-7803-8692-2
DOI :
10.1109/ICSENS.2004.1426412
