Tailoring the Optical Parameters of Optical Fiber Interferometer With Dedicated Boron-Doped Nanocrystalline Diamond Thin Film

摘要

An optical fiber interferometer using nanocrystalline boron-doped diamond film is investigated. The diamond films are deposited on glass plates using a Microwave Plasma-Enhanced Chemical Vapor Deposition (μPE CVD) system. The growth time is 3 h, with boron doping level of 10000 ppm producing films (B-NCD-10) of thickness ≈200nm. The presence of boron atoms in the diamond film is evident in Raman spectrum as peaks at 1212 and 1306 cm~(-1). The scanning electron microscopy (SEM) images show homogenous and continuous surface morphology, thus enabling the use of the diamond film as a reflective layer in fiber optic devices. The optical fiber interferometric sensor in Fabry-Perot configuration with a diamond reflective layer as a mirror was designed and built. Measurements are performed using two superluminescent diodes with central wavelengths of 1290 and 1550 nm. The detection of the measured signal is achieved using an optical spectrum analyzer. All devices are connected with commercially available, single-mode telecommunications fibers and coupler. Using B-NCD-10 films in fiber optic interferometer a very high value of the measured signal contrast is obtained, equal to 0.99. The use of B-NCD-10 film as a reflective surface allows the Fabry-Perot cavity length to be reduced while achieving very good signal visibility. Consequently, the volume of the sample in the cavity can be reduced, compared with that of the traditional mirrors.