Planar Bragg microcavities with monolayer WS$_2$ for strong exciton-photon coupling

arXiv - PHYS - Optics Pub Date : 2024-09-10 DOI:arxiv-2409.06335
A. O. Mikhin, A. A. Seredin, R. S. Savelev, D. N. Krizhanovskii, A. K. Samusev, V. Kravtsov
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Abstract

We propose and numerically investigate a novel compact planar microcavity design based on a high-index dielectric slab waveguide with embedded monolayer semiconductor. In comparison to more traditional vertical Bragg microcavities, our design relies on the transmission of guided optical modes and achieves strong exciton-photon coupling in a chip-compatible and compact geometry with sub-100 nm thickness. We show that Rabi splitting values of more than 70 meV can be obtained in planar microcavities with the total length below 5 um. Further, we reveal the dependence of Rabi splitting on the dimensions of the structure and explain it with a simple theoretical model. Our results contribute towards the development of novel compact 2D semiconductor-based components for integrated photonic circuits.
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具有单层 WS$_2$ 的平面布拉格微腔,可实现强激子-光子耦合
我们提出了一种新颖的紧凑型平面微腔设计,它基于嵌入单层半导体的高指数电介质板状波导,并对其进行了数值研究。与传统的垂直布拉格微腔相比,我们的设计依赖于引导光学模式的传输,并在芯片兼容的紧凑几何结构(厚度小于 100 nm)中实现了强激子光子耦合。我们的研究表明,在总长度小于 5 um 的平面微腔中,可以获得超过 70 meV 的拉比分裂值。我们的研究成果有助于为集成光子电路开发基于二维半导体的新型紧凑元件。
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arXiv - PHYS - Optics
arXiv - PHYS - Optics
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