Infrared Solar Energy Harvesting using Nano-Rectennas

Rectennas formed from nanodipole antennas terminated by plasmonic metal-insulator-metal (MIM) travelling wave transmission line rectifiers are developed for ambient thermal energy harvesting at 30 THz. The transmission lines are formed from two strips coupled either vertically or laterally. A systematic design approach is presented, that shows how different components can be integrated with each other with maximum radiation receiving nantenna efficiency, maximum coupling efficiency between nantenna and rectifier, and maximum MIM diode rectifier efficiency. The tunneling current of the rectifier is calculated using the transfer matrix method (TMM) and the nonequilibrium Green's function (NEGF). The figures of merit of the rectifier are analyzed, and the effect of the metals and insulator choices on these merits is investigated. A detailed parametric study of the coupled strips plasmonic transmission lines is presented and thoroughly discussed. The overall efficiencies of the proposed travelling wave rectennas are fully expressed and compared. Due to the extremely small spacing between its two strips, the nanodipole terminated by vertical coupled strips plasmonic transmission line offers significantly higher efficiency than that terminated by a lateral coupled strips line. However, the overall efficiency of the vertical coupled strips rectenna is still very low due to the extremely low efficiency of the MIM rectifier.