Experimental and Numerical Characterization of a Hybrid Fabry-Pérot Cavity for Temperature Sensing
Résumé
A hybrid Fabry-Pé rot cavity sensing head based on a four-bridge microstructured fiber is characterized for temperature sensing. The characterization of this cavity is performed numerically and experimentally in the L-band. The sensing head output signal presents a linear variation with temperature changes, showing a sensitivity of 12.5 pm/° C. Moreover, this Fabry-Pé rot cavity exhibits good sensitivity to polarization changes and high stability over time.
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