[Zurück]

B. Zhao, Y.-A. Chen, X.-H. Bao, T. Strassel, C. Chuu, X.-M Jin, H.-J. Schmiedmayer, Z.-S. Yuan, S. Chen, J.-W. Pan:
"A millisecond quantum memory for scalable quantum networks";
Nature Physics, 5 (2009), S. 95 - 99.

Scalable quantum-information processin requires the capability of storing quantum sates. In particular, a long-lived storable and retrievable quantum memory for single excitations is of key importance to long-distance quantum communication with atomic ensembles and linear optics. Although atomic memories for classical light and continuous variables have been demonstrated with millisecond storage time, lifetimes of only around 10 μs have been reported for quantum memories storing single excitations. Here we present an experimental investigation into extending the storage time of quantum memory for single excitations. We identify and isolate distinct mechanisms responsible for the decoherence of spin waves in atomic-ensemble-based quantum memories. By exploiting magnetic-field-insensitive states-so-called clock states-and generating a long-wavelength spin wave to suppress dephasing, we succeed in extending the storage time of the quantum memory to 1ms. Our result represents an important advance towards long-distance quantum communication and should provide a realistic approach to large-scale quantum information processing.

http://dx.doi.org/10.1038/NPHYS1153

http://publik.tuwien.ac.at/files/PubDat_174496.pdf