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Paper detail

Decoherence enhanced quantum measurement of a quantum dot spin qubit

We study the effect of phonons on a proposed scheme for the direct measurement of two-electron spin states in a double quantum dot by monitoring the the noise of the current flowing through a quantum point contact coupled to one of the dots. We show that although the effect of phonons is damaging to the procedure at extremely low temperatures characteristic of spin-in-quantum-dots experiments, and may even be fatal, increasing the temperature leads to a revival of the schemes usefulness. Furthermore, at higher, but still reasonably low temperatures phonon effects become advantageous to the measurement scheme, and lead to the enhancement of the spin-singlet noise without disturbing the low spin-triplet noise. Hence, the uncontrollable interaction of the measured system with the open bosonic environment, can be harnessed to increase the distinguishability between the measured states.

preprint2013arXivOpen access
Katarzyna RoszakŁukasz MarcinowskiPaweł Machnikowski
cond-mat.mes-hallquant-ph
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Katarzyna RoszakŁukasz MarcinowskiPaweł Machnikowski

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