Double Vision Model Using Space-Time Function Control within Silicon Microring System

Abstract

This paper presents the use of space and time function applied simultaneously into the silicon microring system arrangement for double vision problem solving and enhancement. The eye structure formed by three silicon ring resonators, in which the 3D imaging constructed and modulated by the space function and time function rings, respectively. The double vision problem manipulated by the interference of the whispering gallery modes generated by the system, the final image information connected the central nerve cells. The 3D imaging constructed by the space function formed by the whispering gallery modes (WGMs) named as object and reference beams. The image information modulated by the WGM of time function signals from the small ring (3rd eye). By using the suitable parameters, the WGMs of light beams within a system generated, from which the coupling of an object and reference beams used for imaging perception. The control part is the WGM beam generated by the time function that inputs into the small ring. The simulation results obtained have shown that the double vision control and adjust by the space-time function achieved, in which the vision wavelength and frequency can be expanded from 0.40–1.80 μm and 150–700 THz, respectively, which has the potential for artificial eye application.