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Paper detail

Exciton-polaritons of a 2D semiconductor layer in a cylindrical microcavity

We describe exciton-polariton modes formed by the interaction between excitons in a 2D layer of a transition metal dichalcogenide embedded in a cylindrical microcavity and the microcavity photons. For this, an expression for the excitonic susceptibility of a semiconductor disk placed in the symmetry plane perpendicular to the axis of the microcavity is derived. Semiclassical theory provides dispersion relations for the polariton modes, while the quantum-mechanical treatment of a simplified model yields the Hopfield coefficients, measuring the degree of exciton-photon mixing in the coupled modes. The density of states (DOS) and its projection onto the photonic and the excitonic subspaces are calculated taking monolayer MoS 2 embedded in a Si 3 N 4 cylinder as an example. The calculated results demonstrate a strong enhancement, for certain frequencies, of the total and local DOS (Purcell effect) caused by the presence of the 2D layer.

preprint2019arXivOpen access
José Nuno S. GomesCarlos Trallero-GinerNuno M. R. PeresMikhail I. Vasilevskiy
cond-mat.mes-hall
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José Nuno S. GomesCarlos Trallero-GinerNuno M. R. PeresMikhail I. Vasilevskiy

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