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Paper detail

Convergence of Combinatorial Gravity

We present a new regularisation of Euclidean Einstein gravity in terms of (sequences of) graphs. In particular, we define a discrete Einstein-Hilbert action that converges to its manifold counterpart on sufficiently dense random geometric graphs (more generally on any sequence of graphs that converges to the manifold in the sense of Gromov-Hausdorff). Our construction relies crucially on the Ollivier curvature of optimal transport theory. Our methods also allow us to define an analogous discrete action for Klein-Gordon fields. These results may be taken as the basis for a combinatorial approach to quantum gravity where we seek to generate graphs that approximate manifolds as metric-measure structures.

preprint2022arXivOpen access
Christy KellyCarlo TrugenbergerFabio Biancalana
math-phmath.MPgr-qchep-th
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Christy KellyCarlo TrugenbergerFabio Biancalana

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