Destructuring Physics: A functional derivation of spacetime
Abstract
I propose that Physics should be formulated using minimal mathematical structure, beginning with its foundational arena: spacetime. This paper opens with a concise overview of several research directions explored in previous work. Among these are the proposal to represent spacetime at the quantum scale using (measure) closed ordered spaces; the unification of causality and topology through quasi-uniformities; the concept of the product trick to unify causality and metricity; the introduction of upper semi-continuous (stable) Lorentzian distances; the representation of spacetime via steep time functions; and the formulation of the Lorentzian distance formula. Subsequently, the properties of the stable distance over stable spacetimes are used as a reference to propose a simplified, abstract notion of spacetime. The discussion shows that spacetime can be introduced in a general and minimalistic way as nothing more than a family of functions defined over an arbitrary set. This abstraction removes unnecessary mathematical complexity, reducing spacetime to its essential elements while preserving its most fundamental physical properties.
Cite
@article{arxiv.2508.11949,
title = {Destructuring Physics: A functional derivation of spacetime},
author = {Ettore Minguzzi},
journal= {arXiv preprint arXiv:2508.11949},
year = {2025}
}
Comments
Latex, 14 pages. Proceedings of the Eleventh International Workshop DICE 2024, Spacetime - Matter - Quantum Mechanics "Quo vadis, fisica?", Castello Pasquini, Castiglioncello (Italy), September 16--20, 2024