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Energy equipartition between stellar and dark matter particles in cosmological simulations results in spurious growth of galaxy sizes

Ludlow, Aaron D; Schaye, Joop; Schaller, Matthieu; Richings, Jack

Energy equipartition between stellar and dark matter particles in cosmological simulations results in spurious growth of galaxy sizes Thumbnail


Authors

Aaron D Ludlow

Joop Schaye

Matthieu Schaller

Jack Richings



Abstract

The impact of 2-body scattering on the innermost density profiles of dark matter haloes is well established. We use a suite of cosmological simulations and idealized numerical experiments to show that 2-body scattering is exacerbated in situations where there are two species of unequal mass. This is a consequence of mass segregation and reflects a flow of kinetic energy from the more to less massive particles. This has important implications for the interpretation of galaxy sizes in cosmological hydrodynamic simulations, which nearly always model stars with less massive particles than are used for the dark matter. We compare idealized models as well as simulations from the eagle project that differ only in the mass resolution of the dark matter component, but keep subgrid physics, baryonic mass resolution, and gravitational force softening fixed. If the dark matter particle mass exceeds the mass of stellar particles, then galaxy sizes – quantified by their projected half-mass radii, R50 – increase systematically with time until R50 exceeds a small fraction of the redshift-dependent mean interparticle separation, l (⁠ R 50 ≳0.05×l R50≳0.05×l ⁠). Our conclusions should also apply to simulations that adopt different hydrodynamic solvers, subgrid physics, or adaptive softening, but in that case may need quantitative revision. Any simulation employing a stellar-to-dark matter particle mass ratio greater than unity will escalate spurious energy transfer from dark matter to baryons on small scales.

Citation

Ludlow, A. D., Schaye, J., Schaller, M., & Richings, J. (2019). Energy equipartition between stellar and dark matter particles in cosmological simulations results in spurious growth of galaxy sizes. Monthly Notices of the Royal Astronomical Society: Letters, 488(1), L123-L128. https://doi.org/10.1093/mnrasl/slz110

Journal Article Type Article
Acceptance Date Jul 9, 2019
Online Publication Date Jul 15, 2019
Publication Date Sep 30, 2019
Deposit Date Sep 13, 2019
Publicly Available Date Sep 13, 2019
Journal Monthly Notices of the Royal Astronomical Society: Letters
Electronic ISSN 1745-3933
Publisher Oxford University Press
Peer Reviewed Peer Reviewed
Volume 488
Issue 1
Pages L123-L128
DOI https://doi.org/10.1093/mnrasl/slz110
Public URL https://durham-repository.worktribe.com/output/1287125

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Copyright Statement
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society: Letters ©: 2019 The Authors. Published by Oxford University Press on behalf of the Royal Astronomical






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