English

Quantum Interference and the Limits of Separability

Quantum Physics 2025-10-27 v1 History and Philosophy of Physics

Abstract

Quantum theory implies, and empirical evidence confirms, that while particles can\textit{can} exhibit wave-like behavior in interferometric experiments, this behavior is so limited as not\textit{not} to allow for third- and higher-order interference. The article at hand shows that this possibility-impossibility structure suggests the universal validity of a principle that regulates statistical correlations between spatiotemporally localized events, independently\textit{independently} of the nature of the objects that may or may not partake in these events. Roughly, the said principle mandates that any\textit{any} joint influence of mm mutually spacelike separated events on another\textit{another} event, be such, that it can be separated by at least\textit{at least} m2\lceil \frac{m}{2} \rceil mediating events, and in some cases, by no more\textit{no more} than m2\lceil \frac{m}{2} \rceil mediating events. The structure of quantum interference thus teaches us that events can influence each other in a non-separable fashion, but that this non-separability has a certain exactly quantifiable limit.

Keywords

Cite

@article{arxiv.2510.21015,
  title  = {Quantum Interference and the Limits of Separability},
  author = {Sebastian Horvat},
  journal= {arXiv preprint arXiv:2510.21015},
  year   = {2025}
}

Comments

31 pages + References + Appendix, 5 figures

R2 v1 2026-07-01T07:03:05.839Z