English

Smooth min-entropy lower bounds for approximation chains

Quantum Physics 2024-02-12 v2 Information Theory math.IT

Abstract

For a state ρA1nB\rho_{A_1^n B}, we call a sequence of states (σA1kB(k))k=1n(\sigma_{A_1^k B}^{(k)})_{k=1}^n an approximation chain if for every 1kn1 \leq k \leq n, ρA1kBϵσA1kB(k)\rho_{A_1^k B} \approx_\epsilon \sigma_{A_1^k B}^{(k)}. In general, it is not possible to lower bound the smooth min-entropy of such a ρA1nB\rho_{A_1^n B}, in terms of the entropies of σA1kB(k)\sigma_{A_1^k B}^{(k)} without incurring very large penalty factors. In this paper, we study such approximation chains under additional assumptions. We begin by proving a simple entropic triangle inequality, which allows us to bound the smooth min-entropy of a state in terms of the R\'enyi entropy of an arbitrary auxiliary state while taking into account the smooth max-relative entropy between the two. Using this triangle inequality, we create lower bounds for the smooth min-entropy of a state in terms of the entropies of its approximation chain in various scenarios. In particular, utilising this approach, we prove approximate versions of the asymptotic equipartition property and entropy accumulation. In our companion paper, we show that the techniques developed in this paper can be used to prove the security of quantum key distribution in the presence of source correlations.

Keywords

Cite

@article{arxiv.2308.11736,
  title  = {Smooth min-entropy lower bounds for approximation chains},
  author = {Ashutosh Marwah and Frédéric Dupuis},
  journal= {arXiv preprint arXiv:2308.11736},
  year   = {2024}
}

Comments

Section on source correlations is split off into a separate paper; Testing for approximate EAT has been added; total number of pages= 65, pages 42-61 are appendices

R2 v1 2026-06-28T12:01:54.982Z