Fiber optics Fabry Pérot acousticsensor using PVC and GO diaphragms

Here, a low cost high sensitive fiber optic Fabry–Perot interferometer (FPI) acoustic sensor is developed. A novel polyvinyl chloride (PVC) diaphragm-based fiber-tip FPI is implemented for the sake of acoustic sensing with high sensitivity. The PVC diaphragm has been coated to the pigtail of a standard single-mode fiber (SMF). Subsequently, the multilayer graphene oxide (GO) is deposited on the PVC cavity. The configuration of (SMF + PVC + GO) attests a sensitivity higher than (SMF + PVC). In fact, GO acts as the acoustic membrane and PVC features as the cavity to demonstrate a sensitive FPI acoustic sensor. The results also give out the acoustic sensitivity of the (SMF + PVC + GO) sensor equivalent to 685 mV/Pa (19.9 rad/Pa) at 1 kHz and a 100 mPa pressure with a frequency response ranging 0.1–10 kHz.