摘要
The magnetic plasmon (MP) modes in the metal-dielectric-metal nanosandwich structure are investigated nu- merically, and the principle of energy resonance in such a resonator is proposed. An equivalent inductance capacitance circuit analysis method is proposed and the results are in agreement with the numerical simulations. Based on the MP resonance in such a structure, a nanosandwich chain waveguide is designed. Gold and silver are chosen as the metal materials. The power transmission e^ciency of the nanosandwieh waveguide can be as high as 0.546 in a specific nanosandwich unit cell, even when the metal absorption loss is large, which is the perspective of the new waveguides and lasers based on MP modes.
The magnetic plasmon (MP) modes in the metal-dielectric-metal nanosandwich structure are investigated nu- merically, and the principle of energy resonance in such a resonator is proposed. An equivalent inductance capacitance circuit analysis method is proposed and the results are in agreement with the numerical simulations. Based on the MP resonance in such a structure, a nanosandwich chain waveguide is designed. Gold and silver are chosen as the metal materials. The power transmission e^ciency of the nanosandwieh waveguide can be as high as 0.546 in a specific nanosandwich unit cell, even when the metal absorption loss is large, which is the perspective of the new waveguides and lasers based on MP modes.
基金
Project supported by the National Key Basic Research Special Fund (Grant No. 2011CB922000)
the National Natural Science Foundation of China (Grant Nos. 61025025 and 60838003)
the National High Technology Research and Development Program of China (Grant Nos. 2007AA03Z410 and 2007AA03Z408)
