Selective enhancement of mid-ir quantum dot electroluminescent emissions using defect mode photonic crystal cavities

M. Su, I. El-Kady, E. Shaner, C. Christodoulou
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引用次数: 1

Abstract

This paper concentrates on another application of photonic crystals: It shows photonic crystals can be used to selectively enhance and modify the light spectra of InAs self assembled quantum dot (SAQD) emissions in mid-IR wavelengths. Quantum dots, when used as light sources, offer unique advantages. It is therefore possible to develop new devices based solely on this property of SAQD based light sources. Before SAQD light sources could be used, however, improvements must be made on their emission spectra, which is rather broad (approximately 24 THz in our case) due to inhomogeneous broadening in SAQD energy levels. The purpose of this work is to theoretically investigate interactions between a photonic crystal and a light source placed into a central defect cavity. The photonic crystal serves to confine lateral propagation of light, which in turn interacts strongly with the central cavity and modifies emission characteristics of the light source.
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利用缺陷模光子晶体腔选择性增强中红外量子点电致发光发射
本文重点介绍了光子晶体的另一个应用:光子晶体可以选择性地增强和修饰InAs自组装量子点(SAQD)在中红外波长的光谱。当量子点被用作光源时,它具有独特的优势。因此,完全基于SAQD光源的这一特性开发新器件是可能的。然而,在SAQD光源可以使用之前,必须对其发射光谱进行改进,由于SAQD能级的不均匀展宽,其发射光谱相当宽(在我们的情况下约为24太赫兹)。这项工作的目的是从理论上研究光子晶体与放置在中心缺陷腔中的光源之间的相互作用。光子晶体用于限制光的横向传播,这反过来又与中心腔强烈相互作用并改变光源的发射特性。
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The gap filler technology for mobile satellite system Numerical diffraction synthesis of 2-D quasioptical power splitter Development of a hemispherical near field antenna measurement range for use on a realistic ground Selective enhancement of mid-ir quantum dot electroluminescent emissions using defect mode photonic crystal cavities Engineering lossy artificial dielectrics using single-walled carbon nanotubes
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