| abstract |
Architecture of the light-to-electricity converter characterized in that the system of amorphized nanograms, preferentially nanograms of amorphized silicon, of any shape are optimally spread within the crystalline host material, preferentially crystalline silicon that are wrapped around with a metamaterial seg-matter nanolayer, characterized by secondary generation centers, called segtons, that are conditioned around divacancies and disposed entirely or only partly within the volume of the emitter, this volume being limited at each end by a nanomembrane assuming the appropriate exploitation of the low-energy secondary generation through the giant photoconversion involving hot electrons, segtons and seg-matter. |