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Channel capacities via p-summing norms

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arxiv 1305.1020 v2 pith:7SD3NQB2 submitted 2013-05-05 math.FA math.OAquant-ph

Channel capacities via p-summing norms

classification math.FA math.OAquant-ph
keywords quantumcapacitychannelclassicaltheorycapacitiesemphsumming
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In this paper we show how \emph{the metric theory of tensor products} developed by Grothendieck perfectly fits in the study of channel capacities, a central topic in \emph{Shannon's information theory}. Furthermore, in the last years Shannon's theory has been generalized to the quantum setting to let the \emph{quantum information theory} step in. In this paper we consider the classical capacity of quantum channels with restricted assisted entanglement. In particular these capacities include the classical capacity and the unlimited entanglement-assisted classical capacity of a quantum channel. To deal with the quantum case we will use the noncommutative version of $p$-summing maps. More precisely, we prove that the (product state) classical capacity of a quantum channel with restricted assisted entanglement can be expressed as the derivative of a completely $p$-summing norm.

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