2021 International Conference on Advances in Electrical, Computing, Communication and Sustainable Technologies (ICAECT) | 2021
Design of Solar Blind Photodetectors for Communication with Blue Signal (λ=441nm) in Space. Part III
Abstract
Commercial lasers operating in red, green and blue lights combined with three photodetectors, each sensitive to selected wavelengths (colors) present basics of long distance wireless optical communication system. Current study (Part III) presents design and operation of photo-detector which is completely blind to solar spectra while working explicitly with blue signal. High frequency of blue signal can carry more information. In addition, high frequency of optical signal is not impacted by electromagnetic storms, which often interrupt radio communication. The overall structure of our solar blind photodetector consists of two sections fabricated from InGaN (Indium Gallium Nitride) hetero-structure- a filter and a double barrier tunneling diode. The topmost 0.8μm thick section with Eg (Energy Band Gap)=2.81eV acts as a filter and as a p-i-n solar cell biasing the photodiode. The filter absorbs all photons with wavelengths shorter than 441nm. The photodiode which comprises the lower section operates as double barrier tunneling photodiode with Eg=2.76eV. It consists of lightly n-type doped 3nm wide quantum well housed between two lightly doped barriers of 10nm thickness. The 0.12μm topmost and bottom region of the photodiode are doped with p- and n-type impurities to the order of 1.2×105cm-3. The illuminated cross-section area of the device is 1mm2