English

Topos Quantum Logic and Mixed States

Quantum Physics 2013-12-06 v1 Mathematical Physics Logic math.MP

Abstract

The topos approach to the formulation of physical theories includes a new form of quantum logic. We present this topos quantum logic, including some new results, and compare it to standard quantum logic, all with an eye to conceptual issues. In particular, we show that topos quantum logic is distributive, multi-valued, contextual and intuitionistic. It incorporates superposition without being based on linear structures, has a built-in form of coarse-graining which automatically avoids interpretational problems usually associated with the conjunction of propositions about incompatible physical quantities, and provides a material implication that is lacking from standard quantum logic. Importantly, topos quantum logic comes with a clear geometrical underpinning. The representation of pure states and truth-value assignments are discussed. It is briefly shown how mixed states fit into this approach.

Keywords

Cite

@article{arxiv.1004.3561,
  title  = {Topos Quantum Logic and Mixed States},
  author = {Andreas Doering},
  journal= {arXiv preprint arXiv:1004.3561},
  year   = {2013}
}

Comments

25 pages; to appear in Electronic Notes in Theoretical Computer Science (6th Workshop on Quantum Physics and Logic, QPL VI, Oxford, 8.--9. April 2009), eds. B. Coecke, P. Panangaden, P. Selinger (2010)

R2 v1 2026-06-21T15:12:49.489Z