Hyperfine interaction of electrons and holes with nuclei probed by optical orientation in MAPbI3 perovskite crystals

Abstract

Optical orientation of electron and hole spins by circularly polarized light is investigated for MAPbI3 single crystals. The Hanle and polarization recovery effects measured in transverse and longitudinal magnetic fields, respectively, evidence the hyperfine interaction with nuclear spins as the main factor determining the spin dynamics of charge carriers at cryogenic temperatures. The parameters of the nuclear spin fluctuations within the carrier localization volume are evaluated. Dynamic polarization of the nuclear spins is demonstrated by the Overhauser field reaching 5 mT for acting on the electrons and -30 mT for acting on the holes.