摘要
The local surface plasmon resonances (LSPRs) of dielectric-Ag core-shell nanospheres are studied by the discrete- dipole approximation method. The result shows that LSPRs are sensitive to the surrounding medium refractive index, which shows a clear red-shift with the increasing surrounding medium refractive index. A dielectric-Ag core-shell nanosphere exhibits a strong coupling between the core and shell plasmon resonance modes. LSPRs depend on the shell thickness and the composition of dielectric-core and metal-shell. LSPRs can be tuned over a longer wavelength range by changing the ratio of core to shell value. The lower energy mode w- shows a red-shift with the increasing dielectric-core value and the inner core radius, while blue-shifted with the increasing outer shell thickness. The underlying mechanisms are analyzed with the plasmon hybridization theory and the phase retardation effect.
The local surface plasmon resonances (LSPRs) of dielectric-Ag core-shell nanospheres are studied by the discrete- dipole approximation method. The result shows that LSPRs are sensitive to the surrounding medium refractive index, which shows a clear red-shift with the increasing surrounding medium refractive index. A dielectric-Ag core-shell nanosphere exhibits a strong coupling between the core and shell plasmon resonance modes. LSPRs depend on the shell thickness and the composition of dielectric-core and metal-shell. LSPRs can be tuned over a longer wavelength range by changing the ratio of core to shell value. The lower energy mode w- shows a red-shift with the increasing dielectric-core value and the inner core radius, while blue-shifted with the increasing outer shell thickness. The underlying mechanisms are analyzed with the plasmon hybridization theory and the phase retardation effect.
基金
Supported by the Anhui Provincial Natural Science Foundation under Grant Nos 1308085QA19 and 1408085QA15
the Key Scientific Research Foundation of Anhui Provincial Education Department under Grant Nos KJ2013A180,KJ2015A223,KJ2015ZD28 and AQKJ2015B017
the Young Foundation of Anqing Normal University under Grant Nos KJ201313 and KJ201008