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Ultrastrong Light-Matter Coupling in 2D Metal-Organic Chalcogenates
Abstract: Hybridization of excitons with photons to form hybrid quasiparticles, exciton-polaritons (EPs), has been widely investigated in a range of semiconductor material systems coupled to photonic cavities. Self-hybridization occurs when the semiconductor itself can serve as the photonic cavity medium resulting in strongly-coupled EPs with Rabi splitting energies (ħΩ) > 200 meV at room temperatures which recently were observed in layered two-dimensional (2D) excitonic materials. Here, we report an extreme version …
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“…Here, we perform more experiments on a 125 nm-thick WS 2 ake. These selfhybridized EPs work in the strong coupling regime (33), with Rabi splitting energies (ħΩ) of 101 meV at room temperature (Supplementary Information, Section S8, Fig. S9).…”
Section: Discussionmentioning
confidence: 99%
“…Here, we perform more experiments on a 125 nm-thick WS 2 ake. These selfhybridized EPs work in the strong coupling regime (33), with Rabi splitting energies (ħΩ) of 101 meV at room temperature (Supplementary Information, Section S8, Fig. S9).…”
Section: Discussionmentioning
confidence: 99%
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