What question did this study set out to answer?

This work aims to explore the impact of spatial correlations in primordial black hole seed distributions on hierarchical merger growth.

June 1, 2026Open Access

The Effect of Spatially Correlated Primordial Black Hole Seeds on Hierarchical Merger Growth

Puntos clave

This work aims to explore the impact of spatial correlations in primordial black hole seed distributions on hierarchical merger growth.
Developed a phenomenological two-dimensional Monte Carlo toy model for simulations.
Compared spatially correlated perturbed-lattice initial conditions to uncorrelated random conditions.
Applied simplified merger dynamics with effective expansion suppression.
Correlated seed placement led to fewer surviving primordial black holes.
Observed larger maximum remnant masses from mergers.
Higher probabilities of runaway growth in low-expansion scenarios.

Resumen

This work presents a two-dimensional phenomenological Monte Carlo toy model for studying how weak spatial correlations in primordial black hole (PBH) seed distributions affect hierarchical merger growth. We compare spatially correlated perturbed-lattice initial conditions with uncorrelated random initial conditions under identical simplified merger dynamics with an effective expansion suppression. The simulations show that correlated seed placement produces fewer surviving PBHs, larger maximum remnant masses, and higher runaway growth probabilities in the low-expansion regime. The results should be interpreted as a proof-of-concept study rather than a direct cosmological prediction.

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