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Coherent and Incoherent Coupling Dynamics between Neutral and Charged Excitons in Monolayer MoSe2

The optical properties of semiconducting transition metal dichalcogenides are dominated by both neutral excitons (electron-hole pairs) and charged excitons (trions) that are stable even at room temperature. While trions directly influence charge transport properties in optoelectronic devices, excitons may be relevant through exciton-trion coupling and conversion phenomena. In this work, we reveal the coherent and incoherent nature of exciton-trion coupling and the relevant timescales in monolayer MoSe2 using optical two-dimensional coherent spectroscopy. Coherent interaction between excitons and trions is definitively identified as quantum beating of cross-coupling peaks that persists for a few hundred femtoseconds. For longer times up to 10 ps, surprisingly, the relative intensity of the cross-coupling peaks increases, which is attributed to incoherent energy transfer likely due to phonon-assisted up-conversion and down-conversion processes that are efficient even at cryogenic temperature.

preprint2016arXivOpen access
Kai HaoLixiang XuPhilipp NaglerAkshay SinghKha TranChandriker Kavir DassChristian SchüllerTobias KornXiaoqin LiGalan Moody
cond-mat.mes-hall
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Kai HaoLixiang XuPhilipp NaglerAkshay SinghKha TranChandriker Kavir DassChristian SchüllerTobias KornXiaoqin LiGalan Moody

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