A Hypercontractive Inequality for Matrix-Valued Functions with Applications to Quantum Computing and LDCs

Details A Hypercontractive Inequality for Matrix-Valued Functions with Applications to Quantum Computing and LDCs A Hypercontractive Inequality for Matrix-Valued Functions with Applications to Quantum Computing and LDCs

2007-05-25

arxiv.org/abs/0705.3806v2

Physics

Quantum Physics

This is the full version of a paper that will appear in the proceedings of the IEEE FOCS 08 conference

Scientific paper

The Bonami-Beckner hypercontractive inequality is a powerful tool in Fourier analysis of real-valued functions on the Boolean cube. In this paper we present a version of this inequality for matrix-valued functions on the Boolean cube. Its proof is based on a powerful inequality by Ball, Carlen, and Lieb. We also present a number of applications. First, we analyze maps that encode $n$ classical bits into $m$ qubits, in such a way that each set of $k$ bits can be recovered with some probability by an appropriate measurement on the quantum encoding; we show that if $m<0.7 n$, then the success probability is exponentially small in $k$. This result may be viewed as a direct product version of Nayak's quantum random access code bound. It in turn implies strong direct product theorems for the one-way quantum communication complexity of Disjointness and other problems. Second, we prove that error-correcting codes that are locally decodable with 2 queries require length exponential in the length of the encoded string. This gives what is arguably the first ``non-quantum'' proof of a result originally derived by Kerenidis and de Wolf using quantum information theory, and answers a question by Trevisan.

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