English

Characterizing Signalling: Connections between Causal Inference and Space-time Geometry

General Relativity and Quantum Cosmology 2026-04-13 v3 Mathematical Physics math.MP Statistics Theory Quantum Physics Statistics Theory

Abstract

Causality is pivotal to our understanding of the world, presenting itself in different forms: information-theoretic and relativistic, the former linked to the flow of information, the latter to the structure of space-time. Leveraging a framework introduced in PRA, 106, 032204 (2022), which formally connects these two notions in general physical theories, we study their interplay. Here, information-theoretic causality is defined through a causal modelling approach. First, we improve the characterization of information-theoretic signalling as defined through so-called affects relations. Specifically, we provide conditions for identifying redundancies in different parts of such a relation, introducing techniques for causal inference in unfaithful causal models (where the observable data does not "faithfully" reflect the causal dependences). In particular, this demonstrates the possibility of causal inference using the absence of signalling between certain nodes. Second, we define an order-theoretic property called conicality, showing that it is satisfied for light cones in Minkowski space-times with d>1d>1 spatial dimensions but violated for d=1d=1. Finally, we study the embedding of information-theoretic causal models in space-time without violating relativistic principles such as no superluminal signalling (NSS). In general, we observe that constraints imposed by NSS in a space-time and those imposed by purely information-theoretic causal inference behave differently. We then prove a correspondence between conical space-times and faithful causal models: in both cases, there emerges a parallel between these two types of constraints. This indicates a connection between informational and geometric notions of causality, and offers new insights for studying the relations between the principles of NSS and no causal loops in different space-time geometries and theories of information processing.

Keywords

Cite

@article{arxiv.2403.00916,
  title  = {Characterizing Signalling: Connections between Causal Inference and Space-time Geometry},
  author = {Maarten Grothus and V. Vilasini},
  journal= {arXiv preprint arXiv:2403.00916},
  year   = {2026}
}

Comments

31 + 25 pages, 12 figures. This work includes significantly improved versions of initial results presented in MG's master's thesis arXiv:2211.03593. v3 is close to the version accepted for publication at Classical and Quantum Gravity, and contains numerous clarifications and some minor corrections

R2 v1 2026-06-28T15:06:36.759Z