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- Communication complexity of quantum channels

We consider the process consisting of preparation, transmission through a quantum channel, and subsequent measurement of quantum states. The communication complexity of the channel is the minimal amount of classical communication required for classically simulating it. Recently, we reduced the computation of this quantity to a convex minimization problem with linear constraints. Every solution of the constraints provides an upper bound on the communication complexity. In this paper, we derive the dual maximization problem of the original one. The feasible points of the dual constraints, which are inequalities, give lower bounds on the communication complexity, as illustrated with an example. The optimal values of the two problems turn out to be equal (zero duality gap). By this property, we provide necessary and sufficient conditions for optimality in terms of a set of equalities and inequalities. We use these conditions and two reasonable but unproven hypotheses to derive the lower bound n2^(n-1) for a noiseless quantum channel with capacity equal to n qubits. This lower bound can have interesting consequences in the context of the recent debate on the reality of the quantum state. Indeed, this would imply that the support of the distribution of quantum states given the hidden-variable state would collapse (in a sufficiently fast way) to a zero-measure set in the limit of infinite qubits.

Collection/Series:

Event Type:

Seminar

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Speaker(s):

Event Date:

Mardi, Mars 11, 2014 - 15:30 to 17:00

Location:

Time Room

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