Band-stop optical nanofilters with split-ring resonators based on metal-insulator-metal structure

Novel band-stop filters with circular split-ring resonators based on the metal-insulator-metal （MIM） structure are presented, with their transmission properties of SPPs propagating through the filter simulated by the finite-difference time-domain （FDTD） method, The variation of the gap of the split...

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Veröffentlicht in:	Chinese physics B 2014-09, Vol.23 (9), p.380-386
1. Verfasser:	张会云申端龙张玉萍杨伟杰袁偲刘蒙尹贻恒吴志心
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Sprache:	eng
Schlagworte:	Banded structure Finite difference method Mathematical analysis Nanostructure Nonlinearity Refractive index Refractivity Resonators Simulation 带阻滤波器开口环模拟滤波器纳米过滤器绝缘体谐振器金属结构非线性介质
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container_title	Chinese physics B
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creator	张会云申端龙张玉萍杨伟杰袁偲刘蒙尹贻恒吴志心
description	Novel band-stop filters with circular split-ring resonators based on the metal-insulator-metal （MIM） structure are presented, with their transmission properties of SPPs propagating through the filter simulated by the finite-difference time-domain （FDTD） method, The variation of the gap of the split ring can affect the transmission characteristics, i.e., the transmission spectrum of SPPs exhibiting a shift, which is useful for modulating the filter. Linear and nonlinear media are used in the resonator respectively. By varying the refractive index of the linear medium, the transmission properties can be changed obviously, and the effect caused by changing the incident intensity with a nonlinear medium is similar. Several resonant modes that are applicable can be enhanced by changing the position of the gap of the split ring. Thus, the transmission properties can be modulated by adjusting the size of the gap, varying the refractive index, and changing the incident intensity of the input light. These methods may play significant roles in applications of optical integrated circuits and nanostructural devices.
doi_str_mv	10.1088/1674-1056/23/9/097301
format	Article
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Linear and nonlinear media are used in the resonator respectively. By varying the refractive index of the linear medium, the transmission properties can be changed obviously, and the effect caused by changing the incident intensity with a nonlinear medium is similar. Several resonant modes that are applicable can be enhanced by changing the position of the gap of the split ring. Thus, the transmission properties can be modulated by adjusting the size of the gap, varying the refractive index, and changing the incident intensity of the input light. 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Linear and nonlinear media are used in the resonator respectively. By varying the refractive index of the linear medium, the transmission properties can be changed obviously, and the effect caused by changing the incident intensity with a nonlinear medium is similar. Several resonant modes that are applicable can be enhanced by changing the position of the gap of the split ring. Thus, the transmission properties can be modulated by adjusting the size of the gap, varying the refractive index, and changing the incident intensity of the input light. These methods may play significant roles in applications of optical integrated circuits and nanostructural devices.</abstract><doi>10.1088/1674-1056/23/9/097301</doi><tpages>7</tpages></addata></record>
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subjects	Banded structure Finite difference method Mathematical analysis Nanostructure Nonlinearity Refractive index Refractivity Resonators Simulation 带阻滤波器开口环模拟滤波器纳米过滤器绝缘体谐振器金属结构非线性介质
title	Band-stop optical nanofilters with split-ring resonators based on metal-insulator-metal structure
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