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Quantum Reading of Unitary Optical Devices

arXiv:1502.05787 · doi:10.1063/1.4903142

Abstract

We address the problem of quantum reading of optical memories, namely the retrieving of classical information stored in the optical properties of a media with minimum energy. We present optimal strategies for ambiguous and unambiguous quantum reading of unitary optical memories, namely when one's task is to minimize the probability of errors in the retrieved information and when perfect retrieving of information is achieved probabilistically, respectively. A comparison of the optimal strategy with coherent probes and homodyne detection shows that the former saves orders of magnitude of energy when achieving the same performances. Experimental proposals for quantum reading which are feasible with present quantum optical technology are reported.

3 pages, 2 figures, published in the proceedings of the 11th Quantum Communication, Measurement, and Computing (QCMC) conference, Vienna, Austria, 30 July-3 August, 2012