Design and analysis of an optical three-input AND gate using a photonic crystal fiber

In this paper, a three-input AND logic gate is employed using a 2D photonic crystal T-shaped waveguide using a silicon in an air medium. In contrast to other gates, the key functions of employing an AND gate are recognition, error correction, code conversion, data encryption/decryption, and arithmetic operations. The proposed footprint is 8.4 mu m x 5.4 mu m, which is a modest size. The performance of the proposed AND gate is investigated by employing the finite-difference time-domain approach, and the outputs are validated at wavelength (lambda) of 1.55 mu m. The outcomes clearly show the higher contrast ratio (CR) of 24.533 dB, and the worst case CR of is 8.6 dB; transmission efficiency values for minimum and maximum values are 19.6% and 142%; reaction time is 26 fs; insertion loss is 1.52 dB; and bit rate is 38.4 Tbps, which can be used in high-speed optical signal processing. The suggested circuit's primary objective is to consume minimal space and possess high CR. (C) 2021 Optical Society of America

Automated summary

This paper investigates a three-input AND logic gate circuit constructed using silicon material and a 2D photonic crystal T-shaped waveguide. The circuit features a small footprint, high contrast ratio, and can be applied in high-speed optical signal processing.