On rounds in quantum communication

Abstract

We investigate the power of interaction in two player quantum communication protocols. Our main result is a rounds-communication hierarchy for the pointer jumping function fk. We show that fk needs quantum communication (n) if Bob starts the communication and the number of rounds is limited to k (for any constant k). Trivially, if Alice starts, O(k n) communication in k rounds suffices. The lower bound employs a result relating the relative von Neumann entropy between density matrices to their trace distance and uses a new measure of information. We also describe a classical probabilistic k round protocol with communication O(n/k·((k/2)n+ k)+k n) in which Bob starts the communication. Furthermore as a consequence of the lower bound for pointer jumping we show that any k round quantum protocol for the disjointness problem needs communication (n1/k) for k=O(1).

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