Observation of spin-dependent quantum jumps via quantum dot resonance fluorescence

Vamivakas, A.N., Lu, C.-Y., Matthiesen, C., Zhao, Y., Fält, S., Badolato, A. and Atatüre, M. (2010) Observation of spin-dependent quantum jumps via quantum dot resonance fluorescence. Nature, 467(7313), pp. 297-300. (doi: 10.1038/nature09359) (PMID:20844531)

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Abstract

Reliable preparation, manipulation and measurement protocols are necessary to exploit a physical system as a quantum bit1. Spins in optically active quantum dots offer one potential realization2,3 and recent demonstrations have shown high-fidelity preparation4,5 and ultrafast coherent manipulation6,7,8. The final challenge—that is, single-shot measurement of the electron spin—has proved to be the most difficult of the three and so far only time-averaged optical measurements have been reported9,10,11,12. The main obstacle to optical spin readout in single quantum dots is that the same laser that probes the spin state also flips the spin being measured. Here, by using a gate-controlled quantum dot molecule13,14,15, we present the ability to measure the spin state of a single electron in real time via the intermittency of quantum dot resonance fluorescence12,16. The quantum dot molecule, unlike its single quantum dot counterpart, allows separate and independent optical transitions for state preparation, manipulation and measurement, avoiding the dilemma of relying on the same transition to address the spin state of an electron.

Item Type:Articles
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:Badolato, Professor Antonio
Authors: Vamivakas, A.N., Lu, C.-Y., Matthiesen, C., Zhao, Y., Fält, S., Badolato, A., and Atatüre, M.
College/School:College of Science and Engineering > School of Engineering > Electronics and Nanoscale Engineering
Journal Name:Nature
Publisher:Nature Publishing Group
ISSN:0028-0836
ISSN (Online):1476-4687

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