Release Time:2019-03-20  Hits:

Indexed by: Conference Paper

Date of Publication: 2012-10-15

Included Journals: Scopus、CPCI-S、EI

Volume: 8421

Key Words: Fiber Fabry-Perot sensor; laser-induced chemical vapor deposition; long-term stability; carbon film; Raman Spectra; permanent monitoring; hydrogen induced loss; harsh environment

Abstract: Carbon coatings on optical sensors can protect them from being corroded by H-2 and H2O. In this paper, a laser-induced chemical vapor deposition device is presented to grow carbon films on the fiber Fabry-Perot sensor. The scanning electron microscopy and Raman spectroscopy are used to analyze hermetic properties of the carbon coating. Experimental results demonstrated that the carbon-coated sensor exhibited a good long-term stability in a 72MPa and 300 degrees C environment. The fluctuation of the cavity length is only 1nm during seven months after a short-term decrease.