English

Device-Independent Bit Commitment based on the CHSH Inequality

Quantum Physics 2016-03-23 v1

Abstract

Bit commitment and coin flipping occupy a unique place in the device-independent landscape, as the only device-independent protocols thus far suggested for these tasks are reliant on tripartite GHZ correlations. Indeed, we know of no other bipartite tasks, which admit a device-independent formulation, but which are not known to be implementable using only bipartite nonlocality. Another interesting feature of these protocols is that the pseudo-telepathic nature of GHZ correlations -- in contrast to the generally statistical character of nonlocal correlations, such as those arising in the violation of the CHSH inequality -- is essential to their formulation and analysis. In this work, we present a device-independent bit commitment protocol based on CHSH testing, which achieves the same security as the optimal GHZ-based protocol. The protocol is analyzed in the most general settings, where the devices are used repeatedly and may have long-term quantum memory. We also recast the protocol in a post-quantum setting where both honest and dishonest parties are restricted only by the impossibility of signaling, and find that overall the supra-quantum structure allows for greater security.

Keywords

Cite

@article{arxiv.1511.06283,
  title  = {Device-Independent Bit Commitment based on the CHSH Inequality},
  author = {Nati Aharon and Serge Massar and Stefano Pironio and Jonathan Silman},
  journal= {arXiv preprint arXiv:1511.06283},
  year   = {2016}
}

Comments

15 pages, 3 figures

R2 v1 2026-06-22T11:49:38.967Z