Effect of Silver Thickness on the Formation of Surface Plasmon Polaritons in Silver-Coated Silicon Nitride Photonic Crystal Slabs

A systematic study of the influence of silver film thickness on the transmittance spectra through a silicon nitride photonic crystal slab (SiN-PCS) coated with silver films of various thicknesses is presented. The transmission spectrum through a bare SiN-PCS reveals guided resonances. When an ultrat...

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Veröffentlicht in:	Japanese Journal of Applied Physics 2010-06, Vol.49 (6), p.06GG07-06GG07-4
Hauptverfasser:	Shyu, Jia-Hong, Ou, Neil, Chien, Jui-Hsing, Lee, Huang-Ming, Tai, Chao-Yi, Wu, Jong-Ching
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Sprache:	eng
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container_title	Japanese Journal of Applied Physics
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description	A systematic study of the influence of silver film thickness on the transmittance spectra through a silicon nitride photonic crystal slab (SiN-PCS) coated with silver films of various thicknesses is presented. The transmission spectrum through a bare SiN-PCS reveals guided resonances. When an ultrathin silver film (${
doi_str_mv	10.1143/JJAP.49.06GG07
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The transmission spectrum through a bare SiN-PCS reveals guided resonances. When an ultrathin silver film (${<}10$ nm in thickness) is coated on a SiN-PCS, isolated silver nanoparticles are formed resulting in the suppression of guided resonances. In addition, a red shift is found in the optical transmittance spectra measured on SiN-PCS coated with a progressively thicker silver film. This may be attributed to the formation of localized surface plasmon resonances at the interface between silver nanoparticles and silicon nitride. A continuous texture is formed as the thickness of the silver film is increased up to 20 nm, resulting in a transition from localized surface plasmon resonances to surface plasmon polaritons. 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title	Effect of Silver Thickness on the Formation of Surface Plasmon Polaritons in Silver-Coated Silicon Nitride Photonic Crystal Slabs
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