Electron density transport using microring circuit for dual-mode power transmission

The transport of electron density using silicon microring resonator arrangement proposed. A proposed system consists of a transmitter and a receiver, which can position with a distance away. The transmitter has a silicon microring with two nanoring phase modulators while the receiver has five silicon microrings with each having two-sided nanorings. A gold grating embedded at the center of the silicon microring, from which the plasmonic polariton induced by the coupling between the gold grating and incident light and leads to the plasmonic wave oscillation. In a simulation, the light source of 1.55 µm wavelength fed into the system and the input power varied from 1 to 10 mW for all calculations, the Bragg wavelength at resonant peaks applied for plasma frequency identification. The trapped electrons can transport to the required destination by the dual-mode transmission, wireless or cable connection. At resonance, the whispering gallery mode obtained by controlling the two nanoring phase modulators. The motivation of this work is the electron density can generate and transport within the microring system. The key finding is the successful transport of electron density in dual-mode using the silicon microring resonator arrangement, from which the gain amplifier also achieved. In application, the power transmission using the remote current source (charger) is possible.