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Monolayer MoSe2: A candidate for room temperature polaritonics

N. Lundt, A. Marynski, E. Cherotchenko, A. Pant, X. Fan, G. Sek, S. Tongay, A. V. Kavokin, S. Höfling, C. Schneider

(Submitted on 17 Mar 2016)

Monolayered MoSe2 is a promising new material to investigate advanced light-matter coupling as it hosts stable and robust excitons with comparably narrow optical resonances. In this work, we investigate the evolution of the lowest lying excitonic transition, the so-called A-valley exciton, with temperature. We find a strong, phonon-induced temperature broadening of the resonance, and more importantly, a reduction of the oscillator strength for increased temperatures. Based on these experimentally extracted, temperature dependent parameters, we apply a coupled oscillator model to elucidate the possibility to observe the strong coupling regime between the A-exciton and a microcavity resonance in three prototypical photonic architectures with varying mode volumes. We find that the formation of exciton-polaritons up to ambient conditions in short, monolithic dielectric and Tamm-based structures seems feasible. In contrast, a temperature-induced transition into the weak coupling regime can be expected for structures with extended effective cavity length. Based on these findings, we calculate and draw the phase diagram of polariton Bosonic condensation in a MoSe2 cavity.

http://arxiv.org/abs/1603.05562

ASU partnered on this paper. If nothing else read the intro. in the PDF