Harnessing Electro-optic Effect in Directional Coupler for Implementation of Optical Digital Data Transmission Circuits
DOI:
https://doi.org/10.56042/ijpap.v62i3.6905Keywords:
Electro-optic Effect, Directional Coupler, MUX, DEMUX, Encoder, Decoder, Priority EncoderAbstract
The paper describes the design and implementation of optical data transmission circuits using an innovative approach based on the electro-optic effect in a directional coupler (EODC). Optical multiplexers (MUX), demultiplexers (DEMUX), encoders, decoders, and priority encoders are all included in the proposed circuit design to enable efficient and reliable data transfer. Electro-optic effect in a directional coupler have been analysed theoretically and numerically, including the detailed mathematics of coupled wave theory. The proposed device is made of material produced from a modulator. The appropriate vale of coupling length , light wavelength, refractive index change , electric field magnitude and other parameters are considered for an efficient generation of fundamental logic gates. The design process and the simulation results provide in-depth analysis, highlighting the feasibility and utility of our approach in enhancing the performance of optical data transmission devices.
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