Julia Hildmann, Eleftheria Kavousanaki, Guido Burkard, Hugo Ribeiro
Published 2013-10-29, updated 2014-05-08Version 2
A recent experiment [E. A. Chekhovich et al., Phys. Rev. Lett. 104, 066804 (2010)] has demonstrated that high nuclear spin polarization can be achieved in self-assembled quantum dots by exploiting an optically forbidden transition between a heavy hole and a trion state. However, a fully polarized state is not achieved as expected from a classical rate equation. Here, we theoretically investigate this problem with the help of a quantum master equation and we demonstrate that a fully polarized state cannot be achieved due to formation of a nuclear dark state. Moreover, we show that the maximal degree of polarization depends on structural properties of the quantum dot.
Comments: 11 pages, 7 figures
Journal: Phys Rev B. 89, 205302 (2014)
Nodal "ground states" and orbital textures in semiconductor quantum dots
Semiconductor quantum dots in high magnetic fields: The composite-fermion view
The Effect of Interaction on Shot Noise in The Quantum Limit
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