Large-scale quantum-emitter arrays in atomically thin semiconductors.

IF 3.784 3区 化学 Q1 Chemistry
Carmen Palacios-Berraquero, Dhiren M Kara, Alejandro R-P Montblanch, Matteo Barbone, Pawel Latawiec, Duhee Yoon, Anna K Ott, Marko Loncar, Andrea C Ferrari, Mete Atatüre
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引用次数: 0

Abstract

Quantum light emitters have been observed in atomically thin layers of transition metal dichalcogenides. However, they are found at random locations within the host material and usually in low densities, hindering experiments aiming to investigate this new class of emitters. Here, we create deterministic arrays of hundreds of quantum emitters in tungsten diselenide and tungsten disulphide monolayers, emitting across a range of wavelengths in the visible spectrum (610-680 nm and 740-820 nm), with a greater spectral stability than their randomly occurring counterparts. This is achieved by depositing monolayers onto silica substrates nanopatterned with arrays of 150-nm-diameter pillars ranging from 60 to 190 nm in height. The nanopillars create localized deformations in the material resulting in the quantum confinement of excitons. Our method may enable the placement of emitters in photonic structures such as optical waveguides in a scalable way, where precise and accurate positioning is paramount.

Abstract Image

Abstract Image

Abstract Image

原子薄半导体中的大规模量子发射器阵列。
在过渡金属二钙化物的原子薄层中已经观察到量子光发射器。然而,它们是在宿主材料中的随机位置被发现的,而且通常密度较低,这阻碍了旨在研究这一类新型发射器的实验。在这里,我们在二硒化钨和二硫化钨单层中创建了由数百个量子发射器组成的确定性阵列,可在可见光谱(610-680 纳米和 740-820 纳米)的一系列波长范围内发射,其光谱稳定性高于随机出现的同类发射器。实现这一目标的方法是将单层沉积到二氧化硅基底上,基底上有直径为 150 纳米、高度为 60 至 190 纳米的纳米柱阵列。纳米柱在材料中产生局部变形,导致激子的量子束缚。我们的方法可以在光子结构(如光波导)中以可扩展的方式放置发射器,在这种结构中,精确和准确的定位至关重要。
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来源期刊
ACS Combinatorial Science
ACS Combinatorial Science CHEMISTRY, APPLIED-CHEMISTRY, MEDICINAL
自引率
0.00%
发文量
0
审稿时长
1 months
期刊介绍: The Journal of Combinatorial Chemistry has been relaunched as ACS Combinatorial Science under the leadership of new Editor-in-Chief M.G. Finn of The Scripps Research Institute. The journal features an expanded scope and will build upon the legacy of the Journal of Combinatorial Chemistry, a highly cited leader in the field.
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