# Fornax globular cluster distributions: implications for the cusp-core   problem

**Authors:** P. Boldrini, R. Mohayaee, J. Silk

arXiv: 1903.00354 · 2019-03-13

## TL;DR

This study uses high-resolution simulations of Fornax's globular clusters to investigate the dark matter distribution, finding that both cored and cuspy halos can explain the observations, challenging previous assumptions.

## Contribution

It introduces a comprehensive simulation approach that accounts for dynamical effects, showing that a cuspy dark matter halo cannot be ruled out for Fornax.

## Key findings

- A lower limit on the core size of $r_{c}\gtrsim$ 0.5 kpc for cored halos
- Both cored and cuspy halos are consistent with globular cluster data
- Contradicts previous claims that cuspy halos are incompatible with observations

## Abstract

We re-investigate the Fornax cusp-core problem using observational results on the spatial and mass distributions of globular clusters (GCs) in order to put constraints on the dark matter profile. We model Fornax using high-resolution N-body simulations with entirely live systems, i.e. self-gravitating systems composed of stars and dark matter, which account correctly for dynamical friction and tidal effects between Fornax and the globular clusters. We test two alternative hypotheses, which are a cored and a cuspy halo for Fornax by exploring a reasonable range of initial conditions on globular clusters. For Fornax cored dark matter halo, we derive a lower limit on the core size of $r_{c}\gtrsim$ 0.5 kpc. Contrary to many previous works, we show also that for different initial conditions, a cuspy halo is not ruled out in our simulations based on observations of Fornax globular clusters.

## Full text

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## Figures

33 figures with captions in the complete paper: https://tomesphere.com/paper/1903.00354/full.md

## References

72 references — full list in the complete paper: https://tomesphere.com/paper/1903.00354/full.md

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Source: https://tomesphere.com/paper/1903.00354