Spin coherence and formation dynamics of charged excitons in CdTe/Cd1-x-yMgxZnyTe quantum wells

We report on a study of the spin coherence and on the formation dynamics of charged excitons in a p-doped CdTe/Cd1-x-yMgxZnyTe quantum well by time-re solved photoluminescence under strictly resonant excitation of either the n eutral or the charged exciton transition. The analysis of the decay of the charged exciton photoluminescence polarization and of the oscillation of th is polarization when a transverse magnetic field is applied allows us to co nclude that the formation of a charged exciton via an exciton state does no t affect either the electron spin orientation or its coherence. The radiati ve Lifetime of the charged exciton is directly measured and is found to he similar to 60 ps. Its formation time is determined from the experiments via a detailed model and is found to be similar to 65 ps. We also obtain infor mation on the excitonic spin-flip time (12 ps) and the single-carrier spin- flip times within the exciton (electron, 60 ps and hole, 20 ps).