Publication | Closed Access
Ultralong spin memory of optically excited single magnetic quantum dots
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Citations
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References
2008
Year
EngineeringSpin SystemsMagnetic ResonanceCdmnte Quantum DotsSpintronic MaterialSpin DynamicSpin PhenomenonCdmnte Quantum WellsSemiconductorsMagnetismUltralong Spin MemoryQuantum DotsQuantum MaterialsMagnetization DynamicsQuantum MatterNanophotonicsQuantum SciencePhysicsQuantum DeviceLow-dimensional SystemsNanophysicsQuantum MagnetismSpintronicsNatural SciencesApplied PhysicsCondensed Matter PhysicsQuantum DevicesOptoelectronics
We study the magnetization dynamics in CdMnTe quantum dots using subwavelength optical microscopy imaging at B=0 T. For continuous laser illumination each dot exhibits strong and unique circular polarization despite completely unpolarized ensemble emission. This implies that after an exciton recombines, the spontaneous ferromagnetic alignment of magnetic impurities persists for over 100 μs, which is a million times longer than in CdMnTe quantum wells. The spin memory effect points toward a qualitatively different picture of magnetization dynamics in the zero-dimensional limit.
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