Optical properties of SOI waveguides functionalized with close-packed quantum dot films

2013 15th International Conference on Transparent Optical Networks (ICTON) Pub Date : 2013-06-23 DOI:10.1109/ICTON.2013.6603021
Z. Hens, A. Omari, P. Geiregat, D. van Thourhout
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Abstract

It is shown that dipolar coupling between neighboring quantum dots enhances the absorption of light in close packed monolayers of colloidal quantum dots. Based on this concept, the experimentally determined losses in planarized waveguides coated by a quantum dot monolayer can be successfully simulated. These simulations rely on replacing the quantum dot layer by an effective medium with a dielectric function determined by dipolar coupling and use the dielectric constant of the quantum dot host medium as the only adjustable parameter. This leads to a generic approach for the simulation of optical materials including close packed quantum dot layers.
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密实量子点膜功能化SOI波导的光学特性
结果表明,相邻量子点之间的偶极耦合增强了致密单层胶体量子点的光吸收。基于这一概念,可以成功地模拟量子点单层涂层平面波导中实验确定的损耗。这些模拟依赖于用具有由偶极耦合决定的介电函数的有效介质代替量子点层,并使用量子点宿主介质的介电常数作为唯一可调参数。这导致了一种模拟光学材料的通用方法,包括紧密排列的量子点层。
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2013 15th International Conference on Transparent Optical Networks (ICTON)
2013 15th International Conference on Transparent Optical Networks (ICTON)
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