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Main Authors: Eichhorn, Astrid, Gamito, Pedro, Stokes, Nawder
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.06813
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author Eichhorn, Astrid
Gamito, Pedro
Stokes, Nawder
author_facet Eichhorn, Astrid
Gamito, Pedro
Stokes, Nawder
contents The event horizon of a black hole is arguably the most dramatic manifestation of the fact that in General Relativity, causal structure is dynamical and spacetimes can be separated into distinct regions by causal boundaries. Causal set quantum gravity is an approach to quantum gravity in which causal relations between spacetime points constitute the basic structure on which the theory is based. This raises the question how a discrete horizon can be identified in a causal set. In our paper, we first construct a local diagnostic to approximate a global concept, namely the event horizon, based on discrete timelike curves. We then turn to the concept of an apparent horizon, which is based on local properties of geodesics, rather than global properties of the entire spacetime. We undertake first steps towards detecting apparent horizons in causal sets, using so-called ladders as tracers of null geodesics. We find that a discrete counterpart of the expansion changes sign across the black-hole horizon, as it should. Finally, we introduce the notion of a fuzzy ladder, which enables us to track null geodesics for larger intervals of the affine parameter. Thereby, we construct a portion of a discrete horizon in a toy-model for a black-hole spacetime in 1+1 dimensions.
format Preprint
id arxiv_https___arxiv_org_abs_2605_06813
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Towards black-hole horizons and geodesic focusing in causal sets
Eichhorn, Astrid
Gamito, Pedro
Stokes, Nawder
General Relativity and Quantum Cosmology
The event horizon of a black hole is arguably the most dramatic manifestation of the fact that in General Relativity, causal structure is dynamical and spacetimes can be separated into distinct regions by causal boundaries. Causal set quantum gravity is an approach to quantum gravity in which causal relations between spacetime points constitute the basic structure on which the theory is based. This raises the question how a discrete horizon can be identified in a causal set. In our paper, we first construct a local diagnostic to approximate a global concept, namely the event horizon, based on discrete timelike curves. We then turn to the concept of an apparent horizon, which is based on local properties of geodesics, rather than global properties of the entire spacetime. We undertake first steps towards detecting apparent horizons in causal sets, using so-called ladders as tracers of null geodesics. We find that a discrete counterpart of the expansion changes sign across the black-hole horizon, as it should. Finally, we introduce the notion of a fuzzy ladder, which enables us to track null geodesics for larger intervals of the affine parameter. Thereby, we construct a portion of a discrete horizon in a toy-model for a black-hole spacetime in 1+1 dimensions.
title Towards black-hole horizons and geodesic focusing in causal sets
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2605.06813