English

Analysing causal structures with entropy

Quantum Physics 2018-07-26 v3

Abstract

A central question for causal inference is to decide whether a set of correlations fit a given causal structure. In general, this decision problem is computationally infeasible and hence several approaches have emerged that look for certificates of compatibility. Here we review several such approaches based on entropy. We bring together the key aspects of these entropic techniques with unified terminology, filling several gaps and establishing new connections regarding their relation, all illustrated with examples. We consider cases where unobserved causes are classical, quantum and post-quantum and discuss what entropic analyses tell us about the difference. This has applications to quantum cryptography, where it can be crucial to eliminate the possibility of classical causes. We discuss the achievements and limitations of the entropic approach in comparison to other techniques and point out the main open problems.

Keywords

Cite

@article{arxiv.1709.08988,
  title  = {Analysing causal structures with entropy},
  author = {Mirjam Weilenmann and Roger Colbeck},
  journal= {arXiv preprint arXiv:1709.08988},
  year   = {2018}
}

Comments

19 (+3) pages, 5 (+1) figures. A few minor updates and corrections. There is a small error in the published version of this manuscript: the claim in the last sentence of Section 2(a)(ii) should be restricted to four variables. This is correct in the arXiv version

R2 v1 2026-06-22T21:55:12.088Z