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Luminescence enhancement from Si-based materials by introducing a photonic crystal double-heterostructure slot waveguide microcavity

Luminescence enhancement from Si-based materials by introducing a photonic crystal double-heterostructure slot waveguide microcavity
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摘要 We demonstrate a novel SOI-based photonic crystal(PC) double-heterostructure slot waveguide microcavity constructed by cascading three PC slot waveguides with different slot widths,and simulate the luminescence enhancement of sol-gel Er-doped SiO2 filled in the microcavity by finite-difference time-domain(FDTD) method.The calculated results indicate that a unique sharp resonant peak dominates in the spectrum at the expected telecommunication wavelength of 1.5509 mm,with very high normalized peak intensity of ~108.The electromagnetic field of the resonant mode exhibits the strongest in the microcavity,and decays rapidly to zero along both sides,which means that the resonant mode field is well confined in the microcavity.The simulation results fully verify the enhancement of luminescence by PC double-heterostructure slot waveguide microcavity theoretically,which is a promising way to realize the high-efficiency luminescence of Si-based materials.
作者 王玥 吴远大 张家顺 安俊明 胡雄伟
机构地区 Optoelectronics Research and Development Center Optoelectronics Research and Development Center
出处 《Optoelectronics Letters》 EI 2011年第4期266-268,共3页 光电子快报(英文版)
基金 supported by the National Key Basic Research Special Fund of China (No.2007CB613404) the National High Technology,Research and Development Program of China (No.2011AA010303) the National Natural Science Foundation of China (Nos.61090390,60837001,60977045,60877014 and 60776057)
关键词 Electromagnetic fields Finite difference time domain method LUMINESCENCE Photonic crystals Silicon compounds Time domain analysis WAVEGUIDES 双异质结 光子晶体 槽波导 微腔 发光 硅基材料 有限差分时域 谐振模式
分类号 O613.72 [理学—无机化学]
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Optoelectronics Letters
2011年 第4期

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