arxiv:2510.05693

Exploring Quantum Spacetime with Topological Data Analysis

Published on Oct 7

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Abstract

Topological data analysis is used to investigate the fractal structure of quantum spacetime by analyzing Betti numbers in dynamical triangulations.

AI-generated summary

In a novel application of the tools of topological data analysis (TDA) to nonperturbative quantum gravity, we introduce a new class of observables that allows us to assess whether quantum spacetime really resembles a ``quantum foam" near the Planck scale. The key idea is to investigate the Betti numbers of coarse-grained path integral histories, regularized in terms of dynamical triangulations, as a function of the coarse-graining scale. In two dimensions our analysis exhibits the well-known fractal structure of Euclidean quantum gravity.

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