Quantum Multi-prover Interactive Proof Systems with Limited Prior Entanglement
ISAAC '02 Proceedings of the 13th International Symposium on Algorithms and Computation
Quantum multi-prover interactive proof systems with limited prior entanglement
Journal of Computer and System Sciences
Quantum de finetti theorems under local measurements with applications
Proceedings of the forty-fifth annual ACM symposium on Theory of computing
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Abstract: In this paper we consider which aspects of the two prover model are necessary for their striking language recognition and zero knowledge capabilities. We approach this question by looking at an alter-native, more symmetric model which we call the double verifier model. We find that in this model the shared randomness of the verifiers is key to the language recognition power: if the verifiers don't sharer and omness the power is PSPACE; otherwise it is MIP = N EXPTIME. We find that the shared randomness of the provers is necessary for zero-knowledge: if the provers don't share randomness, statistical zero-knowledge is only possible for languages in BPP NP; else it is possible for all of NEXPTIME. These results have immediate implications for the standard two-prover model. We see that correlations between the verifier's queries is crucial for the language recognition power of two prover proofs. In particular, the natural analog of IP = AM does not hold in the two-prover model unless NEXPTIME = PSPACE. Similarly, we see that shared randomness, or correlation of the provers' answers, is necessary for the statistical zero-knowledge of two prover proofs.