排序方式: 共有12条查询结果,搜索用时 31 毫秒
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手征材料构成的简立方光子晶体光子带结构计算——平面波法 总被引:10,自引:3,他引:7
发展了适于计算由手征材料组成的光子晶体的光子带结构的平面波法。在此基础上,研究了由手征材料组成的简立方光子晶体的光子带结构。计算表明:手征材料“球形原子”在电介质中排列所组成的科立方光子晶体和电介质“球形原子”在手征材料中排列所组成的简立方光子晶体,不仅都存在光子带隙,而且存在截止频率,在该频率以下的区域无传播模存在,本语文认了这种光子晶体的潜在应用。 相似文献
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Enhanced light emission from InGaN/GaN quantum wells by using surface plasmonic resonances of silver nanoparticle array 下载免费PDF全文
The effect of silver nanostructures prepared by nanosphere lithography on the photoluminescence(PL) properties of blue-emitting In Ga N/Ga N quantum wells(QWs) is studied. Arrays of silver nanoparticles are fabricated to yield a collective surface plasmonic resonance(SPR) near to the QWs emission wavelength. A large enhancement in peak PL intensity is observed, when the induced SPR wavelength of the nanoparticles on the QWs sample matches the QWs emission wavelength. The study proves that the SPRs could enhance the light emission efficiency of semiconductor material. 相似文献
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三角形复式晶格的光子带结构研究 总被引:9,自引:2,他引:7
设计了一种三角形复式晶格结构的光子晶体,在该类晶体中,电介质圆柱在空气中的排列存在E偏振和H偏振的光子带隙重叠区,称之为绝对光子带隙;而空气圆孔在电介质中的排列时,虽然E偏振和H偏振均分别存在光子带隙,但不存在绝对光子带隙。同时利用晶体的光子带结构研究了有效长波介电常数,所得结果与静电理论吻合。 相似文献
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Tuning a nano-pillar array for enhancing the photoluminescence extraction efficiency of GaN-based light-emitting diodes 下载免费PDF全文
We demonstrate the fabrication of hexagonal nano-pillar arrays at the surface of GaN-based light-emitting diodes (LEDs) by nanosphere lithography. By varying the oxygen plasma etching time, we could tune the size and shape of the pillar. The nano-pillar has a truncated cone shape. The nano-pillar array serves as a gradual effective refractive index matcher, which reduces the reflection and increases light cone. It is found that the patterned surface absorbs more pumping light. To compare extraction efficiencies of LEDs, it is necessary to normalize the photoluminescence power spectrum with total absorption rate under fixed pumping power, then we could obtain the correct enhancement factor of the photoluminescence extraction efficiency and optimized structure. The highest enhancement factor of the extraction efficiency is 10.6. 相似文献
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This paper presents a novel in-plane photonic crystal channel drop filter.The device is composed of a resonant cavity sandwiched by two parallel waveguides.The cavity has two resonant modes with opposite symmetries.Tuning these two modes into degeneracy causes destructive interference in bus waveguide,which results in high forward drop efficiency at the resonant wavelength.From the result of numerical analysis by using two-dimensional finite-difference time-domain method,the channel drop filter has a drop efficiency of 96% and a Q value of over 3000,which can be used in dense wavelength division multiplexing systems. 相似文献
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Enhancing light extraction of GaN-based blue light-emitting diodes by a tuned nanopillar arrayEnhancing light extraction of GaN-based blue light-emitting diodes by a tuned nanopillar array 下载免费PDF全文
Surface patterning of p-GaN to improve the light extraction efficiency of GaN-based blue light-emitting diodes (LEDs) has been investigated. Periodic nanopillar arrays on p-GaN have been fabricated by polystyrene (PS) nanosphere lithog- raphy; the diameter of the nanopillars can be tuned to optimize the electrical and optical properties of the LEDs. The electroluminescence intensity of the nanopillar-patterned LEDs is better than that of conventional LEDs; the greatest en- hancement increased the intensity by a factor of 1.41 at a 20 mA injection current. The enhancements can be explained by a model of bilayer film on a GaN substrate. This method may serve as a practical approach to improve the efficiency of light extraction from LEDs. 相似文献
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Charged colloidal suspensions have been used as experimental models for the study of crystal nucleation. Here we propose that the technique of template-assisted colloidal self-assembly can be used to visualize the effects of defect propagation in atomic crystal films produced using epitaxial growth. Templates with periodic line defects were used to grow [100]-oriented three-dimensional photonic crystals by means of the template-assisted colloidal self-assembly method, aided by capillary and gravitational forces. The defect propagation in the [100]-oriented photonic crystal was observed using scanning electron microscopy, both at the surface of the crystal and on cleaved facets. This method is useful in the understanding of defect propagation in the growth of colloidal films on templates - and the same approach may also prove useful for the understanding of atomic crystal growth on substrates with defects. Additionally, the deliberate incorporation of line defects may prove valuable as a way of introducing waveguide channels into three-dimensional photonic crystals. 相似文献