Title

Remarkable Radiation Efficiency Through Leakage Modes In Two-Dimensional Silver Nanoparticle Arrays

Abstract

Using the coupled dipole method, we investigated radiation efficiency through leakage modes in two-dimensional silver nanoparticle arrays. The leakage modes are defined as radiations along directions other than reflection and transmission directions. The leakage efficiency depends on the particle size, lattice spacing, the number of particles in the array, and the angle of incidence. There is also a strong orientation dependence of leakage efficiency at different diffractive coupling orders among particles. We found that a total leakage efficiency of over 75% can be obtained due to the improved coherent coupling between metallic nanoparticles and optimized orientation of the induced dipoles relative to the reflection, transmission, as well as leakage directions. For a specified direction on the same side of the surface normal relative to the incident light, a leakage radiation efficiency as high as over 50% can be obtained. The simulations from the coupled dipole method were also compared to the results from the discrete dipole approximation method, which includes high order excitations of metal nanoparticles, and the differences between the coupled dipole and the discrete dipole approximation methods are explained. © 2011 American Chemical Society.

Publication Date

9-8-2011

Publication Title

Journal of Physical Chemistry C

Volume

115

Issue

35

Number of Pages

17328-17333

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1021/jp205344j

Socpus ID

80052325539 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/80052325539

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