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Kuo Y, Chang WY, Lin CH, et al. Evaluating the blue-shift behaviors of the surface plasmon coupling of an embedded light emitter with a surface Ag nanoparticle by adding a dielectric interlayer or coating. Opt Express. 2015;23(24):30709-20doi: 10.1364/OE.23.030709.
Kuo, Y., Chang, W. Y., Lin, C. H., Yang, C. C., & Kiang, Y. W. (2015). Evaluating the blue-shift behaviors of the surface plasmon coupling of an embedded light emitter with a surface Ag nanoparticle by adding a dielectric interlayer or coating. Optics express, 23(24), 30709-20. https://doi.org/10.1364/OE.23.030709
Kuo, Yang, et al. "Evaluating the blue-shift behaviors of the surface plasmon coupling of an embedded light emitter with a surface Ag nanoparticle by adding a dielectric interlayer or coating." Optics express vol. 23,24 (2015): 30709-20. doi: https://doi.org/10.1364/OE.23.030709
Kuo Y, Chang WY, Lin CH, Yang CC, Kiang YW. Evaluating the blue-shift behaviors of the surface plasmon coupling of an embedded light emitter with a surface Ag nanoparticle by adding a dielectric interlayer or coating. Opt Express. 2015 Nov 30;23(24):30709-20. doi: 10.1364/OE.23.030709. PMID: 26698703.
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Opt Express. 2015 Nov 30;23(24):30709-20. doi: 10.1364/OE.23.030709.

Evaluating the blue-shift behaviors of the surface plasmon coupling of an embedded light emitter with a surface Ag nanoparticle by adding a dielectric interlayer or coating.

Optics express

Yang Kuo, Wen-Yen Chang, Chun-Han Lin, C C Yang, Yean-Woei Kiang

PMID: 26698703 DOI: 10.1364/OE.23.030709

Abstract

The surface plasmon (SP) coupling behaviors of an embedded light emitter or radiating dipole in GaN with a surface Ag nanoparticle (NP) in four structures of different added dielectric geometries, including an extended dielectric interlayer (DI) and a DI of a finite width between the Ag NP and GaN, a dielectric coating on the Ag NP, and no dielectric addition, are numerically compared. Either an added DI or dielectric coating can lead to the blue shift of localized surface plasmon (LSP) dipole resonance peak or the spectral peak of radiated power enhancement ratio with respect to that of the structure without dielectric addition. A smaller dielectric refractive-index or a larger dielectric thickness results in a larger blue-shift range. Under the condition of the same dielectric refractive-index and thickness, the structure of a DI with a finite width leads to the largest blue-shift range, followed by the structure of an extended DI and then the structure of a dielectric coating. In a practical application, for a given emission wavelength of a blue-emitting quantum well, the emission enhancement effect through SP coupling depends on the LSP resonance strength at this wavelength. Our study also shows that although the LSP resonance peak can be blue-shifted by reducing the size of a surface Ag NP, its SP coupling strength is dramatically reduced. Adding a DI or dielectric coating is a more practical approach for shifting the major LSP resonance mode of a surface Ag NP from the green into blue range.

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