We present three important extensions of the plasmon hybridization(PH)method:a generalization of the method to include realistic non-Drude dielectric permittivities for metals,the development of an algorithm for the c...We present three important extensions of the plasmon hybridization(PH)method:a generalization of the method to include realistic non-Drude dielectric permittivities for metals,the development of an algorithm for the calculation of plasmon-induced electric field enhancements,and the extension of the PH method to the modeling of plasmonic Fano resonances.We illustrate these developments with an application to a silver nanosphere dimer and a symmetric silver nanosphere heptamer.展开更多
基金supported by the Robert A.Welch Foundation(C-1222)the National Science Foundation(CNS-0421109)
文摘We present three important extensions of the plasmon hybridization(PH)method:a generalization of the method to include realistic non-Drude dielectric permittivities for metals,the development of an algorithm for the calculation of plasmon-induced electric field enhancements,and the extension of the PH method to the modeling of plasmonic Fano resonances.We illustrate these developments with an application to a silver nanosphere dimer and a symmetric silver nanosphere heptamer.
