In WS2/photonic-crystal heterostructures, anticrossing appears for exciton-polaritons (~57 meV Rabi) but not trion-polaritons (~5 meV), with temperature-enhanced emission at the trion crossing attributed to small Rabi splitting as the unified origin of the bottleneck effect.
Identification of excitons, trions and biexcitons in single-layer WS2.physica status solidi (RRL) – Rapid Research Letters 2015,9, 457–461
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Re-evaluation of bottleneck effect via a coupled monolayer WS_2/photonic crystal heterostructure
In WS2/photonic-crystal heterostructures, anticrossing appears for exciton-polaritons (~57 meV Rabi) but not trion-polaritons (~5 meV), with temperature-enhanced emission at the trion crossing attributed to small Rabi splitting as the unified origin of the bottleneck effect.