J. Calsamiglia, J. I. de Vicente, R. Munoz-Tapia, E. Bagan
Published 2010-04-30Version 1
We provide rigorous, efficiently computable and tight bounds on the average error probability of multiple-copy discrimination between qubit mixed states by Local Operations assisted with Classical Communication (LOCC). In contrast to the pure-state case, these experimentally feasible protocols perform strictly worse than the general collective ones. Our numerical results indicate that the gap between LOCC and collective error rates persists in the asymptotic limit. In order for LOCC and collective protocols to achieve the same accuracy, the former requires up to twice the number of copies of the latter. Our techniques can be used to bound the power of LOCC strategies in other similar settings, which is still one of the most elusive questions in quantum communication.
Comments: 4 pages, 2 figures+ supplementary material
Journal: Phys. Rev. Lett. 105, 080504 (2010)
Probing the quantumness of channels with mixed states
Characteristics and benchmarks of entanglement of mixed states -- the two qubit case
Uncertainty relation of mixed states by means of Wigner-Yanase-Dyson information
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