| CPC H10F 77/484 (2025.01) [H02S 40/22 (2014.12); H10F 10/16 (2025.01); H10F 19/20 (2025.01)] | 9 Claims |
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1. An improved solar panel comprising
a photovoltaic collection system, a lens structure and a calliport structure;
wherein the photovoltaic collection system, the lens structure and the calliport structure forms a light distribution structure;
wherein a plurality of photovoltaic cells comprises a collection of individual photovoltaic cells;
wherein each individual photovoltaic cell selected from the plurality of photovoltaic cells is a photoelectric device;
wherein each individual photovoltaic cell selected from the plurality of photovoltaic cells further comprises an NP junction;
wherein the calliport structure is formed in a silicon crystalline structure of an NP junction in each individual photovoltaic cell contained within the photovoltaic collection structure;
wherein the NP junction further comprises an N crystalline layer, a P crystalline layer, and a depletion zone;
wherein the calliport structure comprises a plurality of fiber optic cable structures;
wherein the plurality of fiber optic cable structures comprises a collection of individual fiber optic cable structures;
wherein each individual fiber optic cable structure selected from the plurality of fiber optic cable structures comprises a photon intake structure, a photon flow path, and a terminal discharge point;
wherein the photon intake structure is an interface structure;
wherein the photon intake structure forms an interface with one or more individual pyramid lens selected from a plurality of pyramid lenses of the lens structure;
wherein the photon intake structure receives a plurality of redirected photons from the lens structure;
wherein the photon intake structure transports the received redirected photons to the photon flow path;
wherein the photon flow path is the fiber optic cable that transports the redirected photons through the NP junction;
wherein the crystalline structure of the NP junction is grown around each photon flow path;
wherein the photon flow path transports a portion of the redirected photons to the terminal discharge point;
wherein the balance of the redirected photons escapes from the photon flow path through the refraction mechanism;
wherein the terminal discharge point forms a termination point of the photon flow path;
wherein the terminal discharge point is the termination of the photon flow path that is distal from the lens structure;
wherein the terminal discharge point ejects the transported redirected photons into the NP junction.
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