English

Classical versus quantum queries in quantum PCPs with classical proofs

Quantum Physics 2024-11-05 v1 Computational Complexity

Abstract

We generalize quantum-classical PCPs, first introduced by Weggemans, Folkertsma and Cade (TQC 2024), to allow for qq quantum queries to a polynomially-sized classical proof (QCPCPQ,c,s[q]\mathsf{QCPCP}_{Q,c,s}[q]). Exploiting a connection with the polynomial method, we prove that for any constant qq, promise gap cs=Ω(1/poly(n))c-s = \Omega(1/\text{poly}(n)) and δ>0\delta>0, we have QCPCPQ,c,s[q]QCPCP1δ,1/2+δ[3]BQNP\mathsf{QCPCP}_{Q,c,s}[q] \subseteq \mathsf{QCPCP}_{1-\delta,1/2+\delta}[3] \subseteq \mathsf{BQ} \cdot \mathsf{NP}, where BQNP\mathsf{BQ} \cdot \mathsf{NP} is the class of promise problems with quantum reductions to an NP\mathsf{NP}-complete problem. Surprisingly, this shows that we can amplify the promise gap from inverse polynomial to constant for constant query quantum-classical PCPs, and that any quantum-classical PCP making any constant number of quantum queries can be simulated by one that makes only three classical queries. Nevertheless, even though we can achieve promise gap amplification, our result also gives strong evidence that there exists no constant query quantum-classical PCP for QCMA\mathsf{QCMA}, as it is unlikely that QCMABQNP\mathsf{QCMA} \subseteq \mathsf{BQ} \cdot \mathsf{NP}, which we support by giving oracular evidence. In the (poly-)logarithmic query regime, we show for any positive integer cc, there exists an oracle relative to which QCPCP[O(logcn)]QCPCPQ[O(logcn)]\mathsf{QCPCP}[\mathcal{O}(\log^c n)] \subsetneq \mathsf{QCPCP}_Q[\mathcal{O}(\log^c n)], contrasting the constant query case where the equivalence of both query models holds relative to any oracle. Finally, we connect our results to more general quantum-classical interactive proof systems.

Keywords

Cite

@article{arxiv.2411.00946,
  title  = {Classical versus quantum queries in quantum PCPs with classical proofs},
  author = {Harry Buhrman and François Le Gall and Jordi Weggemans},
  journal= {arXiv preprint arXiv:2411.00946},
  year   = {2024}
}

Comments

31 pages

R2 v1 2026-06-28T19:44:54.098Z