Enhancement of the Monolayer WS2 Exciton Photoluminescence with a 2D-Material/Air/GaP In-Plane Microcavity
Oliver Mey, Franziska Wall, Lorenz Maximilian Schneider, Darius, G\"under, Frederik Walla, Amin Soltani, Hartmut G. Roskos, Ni Yao, Peng Qing,, Wei Fang, and Arash Rahimi-Iman

TL;DR
This paper demonstrates a novel 2D-material/air/GaP in-plane microcavity that significantly enhances monolayer WS2 photoluminescence by a factor of 10 through interference effects in both horizontal and vertical directions.
Contribution
It introduces a unique optical microcavity design combining circular Bragg grating and multilayer reflection to optimize light confinement and enhance photoluminescence in monolayer WS2.
Findings
Photoluminescence of WS2 enhanced by a factor of 10
Effective in-plane and out-of-plane light confinement achieved
Optimized etch depth for maximum constructive interference
Abstract
Light-matter interaction with two-dimensional materials gained significant attention in recent years leading to the reporting of weak and strong coupling regimes, and effective nano-laser operation with various structures. Particularly, future applications involving monolayer materials in waveguide-coupled on-chip integrated circuitry and valleytronic nanophotonics require controlling, directing and optimizing photoluminescence. In this context, photoluminescence enhancement from monolayer transition-metal dichalcogenides on patterned semiconducting substrates becomes attractive. It is demonstrated in our work using focussed-ion-beam-etched GaP and monolayer WS2 suspended on hexagonal-BN buffer sheets. We present a unique optical microcavity approach capable of both efficient in-plane and out-of-plane confinement of light, which results in a WS2 photoluminescence enhancement by a factor…
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Taxonomy
TopicsStrong Light-Matter Interactions · Plasmonic and Surface Plasmon Research · 2D Materials and Applications
