Photodetector based on Vernier-Enhanced Fabry-Perot Interferometers with a Photo-Thermal Coating

Abstract

We present a new type of fiber-coupled photodetector with a thermal-based optical sensor head, which enables it to operate even in the presence of strong electro-magnetic interference and in electrically sensitive environments. The optical sensor head consists of three cascaded Fabry-Perot interferometers. The end-face surface is coated with copper-oxide micro-particles embedded in hydrogel, which is a new photo-thermal coating that can be readily coated on many different surfaces. Under irradiation, photons are absorbed by the photo-thermal coating, and are converted into heat, changing the optical path length of the probing light and induces a resonant wavelength shift. For white-light irradiation, the photodetector exhibits a power sensitivity of 760 pm/mW, a power detection limit of 16.4 μW (i.e. specific detectivity of 2.2 × 10 5 cm.- Hz/W), and an optical damage threshold of ∼100 mW or ∼800 mW/cm 2. The response and recovery times are 3.0 s (∼90% of change within 100 ms) and 16.0 s respectively.