An Efficient Opto Electronic Filter Design of Reflective CMY Colors for Optical Communications

Abstract

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The discussed study presents a new type of opto-electronic color filter designed for optical communication that could revolutionize both the signal processing field and the fiber optic communication industry. The study proposes a precise structure design for three reflective color filters based on a tri-layer configuration. This design includes a titanium dioxide layer on top, a semi-conductor silicon layer in the middle, and a silicon dioxide layer at the bottom, creating a DSD structure. This design presents three different filters for pure hues, namely magenta, yellow, and cyan. One of the significant advantages of this tri-layer design is the thickness of each material layer, which plays a vital role in producing better intensity values and purity of CMY colors. This study presents the design of the new filters that could potentially have a significant impact on the display industry, and life-saving medical equipment where fiber optics with multi-layer opto-electronic color filters are used. The novelty of this study lies in its precise structure design and the potential to generate superior results compared to existing color filters. This innovative design can potentially be implemented in various fields, such as display technology and medical equipment, to enhance their performance and accuracy. Overall, this study’s contribution highlights the potential advantages and usages of the proposed filters in various fields.

Keywords

• dielectric
• dielectric semiconductor dielectric (DSD)
• multi-layer
• cyan magenta and yellow (CMY)
• reflective color filters
• semiconductor