We put forward a new type of computationally sound proof system called universal arguments. Universal arguments are related but different from both CS proofs (as defined by Micali [SIAM J. Comput., 3...
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Exponential Separation for One-Way Quantum Communication Complexity, with Applications to Cryptography
SIAM J. Comput. Volume 38, Issue 5, pp. 1695-1708 (2008)
Published December 19, 2008
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We give an exponential separation between one-way quantum and classical communication protocols for a partial Boolean function (a variant of the Boolean hidden matching problem of Bar-Yossef et al.). Previously, such an exponential separation was known only for a relational problem. The communication problem corresponds to a strong extractor that fails against a small amount of quantum information about its random source. Our proof uses the Fourier coefficients inequality of Kahn, Kalai, and Linial. We also give a number of applications of this separation. In particular, we show that there are privacy amplification schemes that are secure against classical adversaries but not against quantum adversaries; and we give the first example of a key-expansion scheme in the model of bounded-storage cryptography that is secure against classical memory-bounded adversaries but not against quantum ones.
©2008 Society for Industrial and Applied Mathematics| History: | Received October 29, 2007; accepted July 18, 2008; published December 19, 2008 |
| Permalink: | http://dx.doi.org/10.1137/070706550 |
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