中文

On parallel composition of zero-knowledge proofs with black-box quantum simulators

量子物理 2009-06-19 v4

摘要

Let L be a language decided by a constant-round quantum Arthur-Merlin (QAM) protocol with negligible soundness error and all but possibly the last message being classical. We prove that if this protocol is zero knowledge with a black-box, quantum simulator S, then L in BQP. Our result also applies to any language having a three-round quantum interactive proof (QIP), with all but possibly the last message being classical, with negligible soundness error and a black-box quantum simulator. These results in particular make it unlikely that certain protocols can be composed in parallel in order to reduce soundness error, while maintaining zero knowledge with a black-box quantum simulator. They generalize analogous classical results of Goldreich and Krawczyk (1990). Our proof goes via a reduction to quantum black-box search. We show that the existence of a black-box quantum simulator for such protocols when L notin BQP would imply an impossibly-good quantum search algorithm.

关键词

引用

@article{arxiv.quant-ph/0607211,
  title  = {On parallel composition of zero-knowledge proofs with black-box quantum simulators},
  author = {Rahul Jain and Alexandra Kolla and Gatis Midrijanis and Ben W. Reichardt},
  journal= {arXiv preprint arXiv:quant-ph/0607211},
  year   = {2009}
}

备注

18 pages; final version