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P-shell carriers assisted dynamic nuclear spin polarization in single quantum dots at zero external magnetic field

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arxiv 1601.03480 v2 pith:WANAO24N submitted 2016-01-14 cond-mat.mes-hall

P-shell carriers assisted dynamic nuclear spin polarization in single quantum dots at zero external magnetic field

classification cond-mat.mes-hall
keywords nuclearspinp-shellpolarizationcarriersfieldincreaseassisted
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Repeated injection of spin polarized carriers in a quantum dot leads to the polarization of nuclear spins, a process known as dynamic nuclear spin polarization (DNP). Here, we report the first observation of p-shell carrier assisted DNP in single QDs at zero external magnetic field. The nuclear field - measured by using the Overhauser shift of the singly charged exciton state of the QDs - continues to increase, even after the carrier population in the s-shell saturates. This is also accompanied by an abrupt increase in nuclear spin buildup time as p-shell emission overtakes that of the s-shell. We attribute the observation to p-shell electrons strongly altering the nuclear spin dynamics in the QD, supported by numerical simulation results based on a rate equation model of coupling between electron and nuclear spin system. DNP with p-shell carriers could open up avenues for further control to increase the degree of nuclear spin polarization in QDs.

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