Abstract

This paper describes a composite optical system that contains a polygonal composite light ray deviating system and a composite cuboidal light ray projection system. The entire composite optical system consists of a polygonal composite light ray deviating system and a composite cuboidal light ray projection system. And in the entire composite optical system, the polygonal composite light ray deviating system will be positioned on top of the composite cuboidal light ray projection system. The polygonal composite light ray deviating system will consists of a collection of individual lens elements that are collectively configured in an adjacent manner. In addition to that, when the entire composite optical system is observed from the top perspective, the polygonal composite light ray deviating system will be visualized as a collection of individual lens elements that are collectively configured in an adjacent manner that will resemble a composite concentric polygonal shape, which is symmetrical. Furthermore, the polygonal composite light ray deviating system will have the capability to collect light rays from the outside world and will have the capability to deviate those light ray projecting directions utilizing the collective individual lens elements that it contains. The composite cuboidal light ray projection system will consist of a collection of individual cuboidal shaped structures that is configured in 3-dimensional space as a combination of 2D cuboidal array configurations, which are stacked on top of each other. The composite optical system can be utilized for the formation of both converging composite lens formations and diverging composite lens formations.

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Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.

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