Optical Alignment and Optical Orientation of Excitons in CdSe/CdS Colloidal Nanoplatelets.
Olga O SmirnovaIna V KalitukhaAnna V RodinaGrigorii S DimitrievVictor F SapegaOlga S KenVladimir L KorenevNikolai V KozyrevSergey V NekrasovYuri G KusrayevDmitri R YakovlevBenoit DubertretManfred BayerPublished in: Nanomaterials (Basel, Switzerland) (2023)
Optical alignment and optical orientation of excitons are studied experimentally on an ensemble of core/shell CdSe/CdS colloidal nanoplatelets. Linear and circular polarization of photoluminescence during resonant excitation of excitons is measured at cryogenic temperatures and with magnetic fields applied in the Faraday geometry. The developed theory addresses the optical alignment and optical orientation of excitons in colloidal nanocrystals, taking into account both bright and dark exciton states in the presence of strong electron-hole exchange interaction and the random in-plane orientation of nanoplatelets within the ensemble. Our theoretical analysis of the obtained experimental data allows us to evaluate the exciton fine structure parameters, the g -factors, and the spin lifetimes of the bright and dark excitons. The optical alignment effect enables the identification of the exciton and trion contributions to the emission spectrum, even in the absence of their clear separation in the spectra.