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Paper detail

Towards high-speed optical quantum memories

Quantum memories, capable of controllably storing and releasing a photon, are a crucial component for quantum computers and quantum communications. So far, quantum memories have operated with bandwidths that limit data rates to MHz. Here we report the coherent storage and retrieval of sub-nanosecond low intensity light pulses with spectral bandwidths exceeding 1 GHz in cesium vapor. The novel memory interaction takes place via a far off-resonant two-photon transition in which the memory bandwidth is dynamically generated by a strong control field. This allows for an increase in data rates by a factor of almost 1000 compared to existing quantum memories. The memory works with a total efficiency of 15% and its coherence is demonstrated by directly interfering the stored and retrieved pulses. Coherence times in hot atomic vapors are on the order of microsecond - the expected storage time limit for this memory.

preprint2009arXivOpen access
K. F. ReimJ. NunnV. O. LorenzB. J. SussmanK. C. LeeN. K. LangfordD. JakschI. A. Walmsley
quant-ph
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K. F. ReimJ. NunnV. O. LorenzB. J. SussmanK. C. LeeN. K. LangfordD. JakschI. A. Walmsley

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