English

A Tight Lower Bound for the BB84-states Quantum-Position-Verification Protocol

Quantum Physics 2015-06-10 v3

Abstract

We use the entanglement sampling techniques developed by Dupuis, Fawzi and Wehner to find a lower bound on the entanglement needed by a coalition of cheater attacking the quantum position verification protocol using the four BB84 states in the scenario where the cheaters have no access to a quantum channel but share a (possibly mixed) entangled state Φ~\tilde{\Phi}. For a protocol using n qubits, a necessary condition for cheating is that the max- relative entropy of entanglement Emax(Φ~)nO(logn)E_{\max}(\tilde{\Phi})\ge n-O(\log n). This improves previously known best lower bound by a factor 4\sim4, and it is essentially tight, since this protocol is vulnerable to a teleportation based attack using nO(1)n-O(1) ebits of entanglement.

Keywords

Cite

@article{arxiv.1504.07171,
  title  = {A Tight Lower Bound for the BB84-states Quantum-Position-Verification Protocol},
  author = {Jérémy Ribeiro and Frédéric Grosshans},
  journal= {arXiv preprint arXiv:1504.07171},
  year   = {2015}
}

Comments

v2, v3: correct typos

R2 v1 2026-06-22T09:23:33.972Z