English

The CBH characterisation theorem beyond algebraic quantum theory

Quantum Physics 2020-08-25 v4 Information Theory Logic in Computer Science math.IT

Abstract

The CBH theorem characterises quantum theory within a C*-algebraic framework. Namely, mathematical properties of C*-algebras modelling quantum systems are equivalent to constraints that are information-theoretic in nature: (1) noncommutativity of subalgebras is equivalent to impossibility of signalling; (2) noncommutativity of the whole algebra is equivalent to impossibility of broadcasting; (3) the existence of entangled states is implied by the impossibility of secure bit commitment (with the converse conjectured). However, the C*-algebraic framework has drawn criticism as it already contains much of themathematical structure of quantum theory such as complex linearity. We address this issue by a generalising C*-algebras categorically. In this framework, equivalence (1) holds, equivalence (2) becomes a strict implication, and implication (3) fails in general. Thus we identify exactly what work is being done by the complex-linear structure of C*-algebras. In doing so, we uncover a richer hierarchy of notions of 'classicality' and 'quantumness' of information than visible in the concrete case.

Keywords

Cite

@article{arxiv.1604.05948,
  title  = {The CBH characterisation theorem beyond algebraic quantum theory},
  author = {Chris Heunen and Aleks Kissinger},
  journal= {arXiv preprint arXiv:1604.05948},
  year   = {2020}
}

Comments

30 pages

R2 v1 2026-06-22T13:36:46.599Z