Quantum Communication Complexity

Foundations of Physics 33 (11):1593-1616 (2003)
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Abstract

Can quantum communication be more efficient than its classical counterpart? Holevo's theorem rules out the possibility of communicating more than n bits of classical information by the transmission of n quantum bits—unless the two parties are entangled, in which case twice as many classical bits can be communicated but no more. In apparent contradiction, there are distributed computational tasks for which quantum communication cannot be simulated efficiently by classical means. In some cases, the effect of transmitting quantum bits cannot be achieved classically short of transmitting an exponentially larger number of bits. In a similar vein, can entanglement be used to save on classical communication? It is well known that entanglement on its own is useless for the transmission of information. Yet, there are distributed tasks that cannot be accomplished at all in a classical world when communication is not allowed, but that become possible if the non-communicating parties share prior entanglement. This leads to the question of how expensive it is, in terms of classical communication, to provide an exact simulation of the spooky power of entanglement

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10.1023/a:1026009100467

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Citations of this work

Quantum Pseudo-Telepathy.Gilles Brassard, Anne Broadbent & Alain Tapp - 2005 - Foundations of Physics 35 (11):1877-1907.

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References found in this work

Bell's Inequality, Information Transmission, and Prism Models.Tim Maudlin - 1992 - PSA: Proceedings of the Biennial Meeting of the Philosophy of Science Association 1992:404 - 417.
Communication Complexity.Eyal Kushilevitz & Noam Nisan - 2006 - Cambridge University Press.

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