Integrated tunable optofluidics filter based on the plasmonic structure with double side-coupled cavities

Ming-jia HE; Rui-sheng LIANG; Yu-ruo WANG; Zhe YU; Liangbing LUO; Wen-hao MO; Teng-long LI

doi:10.1007/s11801-014-3186-8

Journals >Optoelectronics Letters >Volume 10 >Issue 1 >Page 12 > Article

Optoelectronics Letters
Vol. 10, Issue 1, 12 (2014)

Integrated tunable optofluidics filter based on the plasmonic structure with double side-coupled cavities

Ming-jia HE, Rui-sheng LIANG^*, Yu-ruo WANG, Zhe YU, Liangbing LUO, Wen-hao MO, and Teng-long LI

Author Affiliations

Laboratory of Nanophotonic Functional Materials and Devices, School for Information and Optoelectronic Science and Engineering, South China Normal University, Guangzhou 510006, China

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DOI: 10.1007/s11801-014-3186-8 Cite this Article

HE Ming-jia, LIANG Rui-sheng, WANG Yu-ruo, YU Zhe, LUO Liangbing, MO Wen-hao, LI Teng-long. Integrated tunable optofluidics filter based on the plasmonic structure with double side-coupled cavities[J]. Optoelectronics Letters, 2014, 10(1): 12 Copy Citation Text

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Abstract

A novel method is presented to enhance the resonant transmission contrast ratio in metal-insulator-metal (MIM) sidecoupled- cavity waveguide. The finite difference time domain (FDTD) method is used to simulate and study the optical properties of the filter based on double side-coupled cavities structure with optofluidics pump system (OPS). This system provides a flexible way to change wavelength in the optical filter. In the numerical simulation, the resonant wavelengths from 1000 nm to 1550 nm are analyzed. We find that the double side-coupled cavities structure with OPS has higher onresonance transmittance and better wavelength selectivity than the single side-coupled cavity structure with OPS.

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