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Paper detail

Microscopic origin of the effective spin-spin interaction in a semiconductor quantum dot ensemble

We present a microscopic model for a singly charged quantum dot (QD) ensemble to reveal the origin of the long-range effective interaction between the electron spins in the QDs. Wilson's numerical renormalization group (NRG) is used to calculate the magnitude and the spatial dependency of the effective spin-spin interaction mediated by the growth induced wetting layer. Surprisingly, we found an antiferromagnetic Heisenberg coupling for very short inter-QD distances that is caused by the significant particle-hole asymmetry of the wetting layer band at very low filling. Using the NRG results obtained from realistic parameters as input for a semiclassical simulation for a large QD ensemble, we demonstrate that the experimentally reported phase shifts in the coherent spin dynamics between single and two color laser pumping can be reproduced by our model, solving a longstanding mystery of the microscopic origin of the inter QD electron spin-spin interaction.

preprint2022arXivOpen access
Frederik VonhoffAndreas FischerKira DeltenreFrithjof B. Anders
cond-mat.mes-hallcond-mat.str-el
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Frederik VonhoffAndreas FischerKira DeltenreFrithjof B. Anders

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