Addressing the Dark State Problem in Strongly Coupled Organic Exciton-Polariton Systems

Evripidis Michail, Kamyar Rashidi, Bin Liu, Guiying He, Vinod M. Menon, Matthew Y. Sfeir

doi:10.48550/arxiv.2310.01588

The manipulation of molecular excited state processes through strong coupling has attracted significant interest for its potential to provide precise control of photochemical phenomena. However, the key limiting factor for achieving this control has been the dark state problem, in which photoexcitation populates long-lived reservoir states with similar energies and dynamics to bare excitons. Here, we use a sensitive ultrafast transient reflection method with momentum and spectral resolution to achieve the selective excitation of organic exciton-polaritons in open photonic cavities. We show that the energy dispersions of these systems allow us to avoid the parasitic effect of reservoir states. Under phase-matching conditions, we observe the direct population and decay of polaritons on time scales of less than 100 fs and find that momentum scattering processes occur on even faster timescales. We establish that it is possible to overcome the dark state problem through careful design of strongly coupled systems.

Addressing the Dark State Problem in Strongly Coupled Organic Exciton-Polariton Systems

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Addressing the Dark State Problem in Strongly Coupled Organic Exciton-Polariton Systems

説明

収録刊行物

キーワード

詳細情報 詳細情報について

書き出し

問題の指摘

詳細情報詳細情報について