Title :
Using Entanglement in Quantum Multi-prover Interactive Proofs
Author :
Kempe, Julia ; Kobayashi, Hirotada ; Matsumoto, Keiji ; Vidick, Thomas
Author_Institution :
Sch. of Comput. Sci., Tel Aviv Univ., Tel Aviv
Abstract :
The central question in quantum multi-prover interactive proof systems is whether or not entanglement shared among provers affects the verification power of the proof system. We study for the first time positive aspects of prior entanglement and show how it can be used to parallelize any multi- prover quantum interactive proof system to a one-round system with perfect completeness, soundness bounded away from 1 by an inverse polynomial in the input size, and one extra proven Alternatively, we can also parallelize to a three-turn system with the same number of provers, where the verifier only broadcasts the outcome of a coin flip. This "public-coin" property is somewhat surprising, since in the classical case public-coin multi-prover interactive proofs are equivalent to single prover ones.
Keywords :
polynomials; quantum computing; quantum entanglement; theorem proving; inverse polynomial; public-coin property; quantum entanglement; quantum multiprover interactive proof system; three-turn system; Application software; Broadcasting; Computational complexity; Computer science; Cryptography; Informatics; Polynomials; Quantum computing; Quantum entanglement; USA Councils; entanglement; parallelization; public-coin; quantum interactive proofs;
Conference_Titel :
Computational Complexity, 2008. CCC '08. 23rd Annual IEEE Conference on
Conference_Location :
College Park, MD
Print_ISBN :
978-0-7695-3169-4
