Evaluation of Moderate Refractive Index Nanoantennas for Enhancing the Photoluminescence Signal of Quantum Dots

arXiv - PHYS - Optics Pub Date : 2024-09-16 DOI:arxiv-2409.10229

Rafael Ramos Uña, Braulio Garcia-Camara. and Angela I. Barreda

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Abstract

The use of nanostructures to enhance the emission of single-photon sources has withdrawn some attention in last decade due to the development of quantum technologies. In particular, the use of metallic and high refractive index dielectric materials has been proposed. However, the utility of moderate refractive index dielectric nanostructures to achieve more efficient single-photon sources remains unexplored. Here, a systematic comparison of various metallic, high refractive index and moderate refractive index dielectric nanostructures has been performed to optimize the excitation and emission of a CdSe/ZnS single quantum dot at visible spectral region. Several geometries have been evaluated in terms of electric field enhancement and Purcell factor, considering the combination of metallic, high refractive index and moderate refractive index dielectric materials conforming homogeneous and hybrid nanocylinder dimers. Our results demonstrate that moderate refractive index dielectric nanoparticles can enhance the photoluminescence signal of quantum emitters due to their broader electric and magnetic dipolar resonances compared to high refractive index dielectric nanoparticles. However, hybrid combinations of metallic and high refractive index dielectric nanostructures offer the largest intensity enhancement and Purcell factors at the excitation and emission wavelengths of the quantum emitter, respectively. The results of this work may find applications in the development of single-photon sources

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评估用于增强量子点光致发光信号的中等折射率纳米天线

近十年来，随着量子技术的发展，利用纳米结构增强单光子源发射的方法受到了一些关注。特别是，有人提出使用金属和高折射率介电材料。然而，如何利用折射率适中的电介质纳米结构实现更高效的单光子源仍有待探索。在此，我们对各种金属、高折射率和中等折射率介电纳米结构进行了系统比较，以优化 CdSe/ZnS 单量子点在可见光谱区的激发和发射。考虑到金属、高折射率和中等折射率电介质材料的组合符合同质和杂化纳米圆柱二聚体，我们从电场增强和浦氏因子的角度对几种几何形状进行了评估。我们的研究结果表明，与高折射率电介质纳米粒子相比，中等折射率电介质纳米粒子具有更宽的电偶极共振和磁偶极共振，因此可以增强量子发射器的光致发光信号。然而，金属和高折射率电介质纳米结构的混合组合在量子发射器的激发和发射波长处分别具有最大的强度增强和珀塞尔因子。这项工作的结果可能会在单光子源的开发中得到应用

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arXiv - PHYS - Optics

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