Saved in:
Bibliographic Details
Main Authors: Jessop, Owen, Jenkins, Adrian, Pontzen, Andrew, Schaye, Joop, Schaller, Matthieu, Helly, John C.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.02127
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913078817325056
author Jessop, Owen
Jenkins, Adrian
Pontzen, Andrew
Schaye, Joop
Schaller, Matthieu
Helly, John C.
author_facet Jessop, Owen
Jenkins, Adrian
Pontzen, Andrew
Schaye, Joop
Schaller, Matthieu
Helly, John C.
contents We use the FLAMINGO galaxy formation model to quantify the impact of baryon-CDM isocurvature perturbations on galaxy formation in $Λ$CDM. In linear theory, these perturbations represent local, compensated variations in the ratio between the baryon and CDM densities; they freeze in amplitude at late times, with an RMS amplitude of $1.5\%$ on the Lagrangian scale of a $10^{11}\,\rm M_\odot$ halo ($0.85\, \rm{Mpc}$). Although such perturbations arise naturally within $Λ$CDM, most cosmological simulations and semi-analytic models to date omit them. These perturbations are strongly anti-correlated with the matter overdensity field such that halos form with baryon fractions below the cosmic mean, with earlier-collapsing halos exhibiting stronger baryonic suppression. To isolate the galaxy response, we analyse three hydrodynamical simulations with identical initial matter overdensity fields that: i) include isocurvature modes, ii) omit them, or iii) invert their amplitude. At $z=8$, isocurvature perturbations reduce the mean baryon fraction and star formation rates of resolved halos by $ 5\%$ and $ 12\%$, respectively, relative to the null-isocurvature case. These effects are almost independent of halo mass and diminish steadily with time, reaching $ 0.1\%$ and $ 1\%$ by $z=0$. We develop a model based on spherical collapse that accurately reproduces the mean baryon fraction suppression. As high-redshift observations become increasingly routine, incorporating isocurvature perturbations into simulations and semi-analytic models will be important for robust predictions of early galaxy and black hole formation in the JWST era.
format Preprint
id arxiv_https___arxiv_org_abs_2512_02127
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Ripples in the baryon to dark matter ratio in $Λ$CDM: implications for galaxy formation
Jessop, Owen
Jenkins, Adrian
Pontzen, Andrew
Schaye, Joop
Schaller, Matthieu
Helly, John C.
Astrophysics of Galaxies
We use the FLAMINGO galaxy formation model to quantify the impact of baryon-CDM isocurvature perturbations on galaxy formation in $Λ$CDM. In linear theory, these perturbations represent local, compensated variations in the ratio between the baryon and CDM densities; they freeze in amplitude at late times, with an RMS amplitude of $1.5\%$ on the Lagrangian scale of a $10^{11}\,\rm M_\odot$ halo ($0.85\, \rm{Mpc}$). Although such perturbations arise naturally within $Λ$CDM, most cosmological simulations and semi-analytic models to date omit them. These perturbations are strongly anti-correlated with the matter overdensity field such that halos form with baryon fractions below the cosmic mean, with earlier-collapsing halos exhibiting stronger baryonic suppression. To isolate the galaxy response, we analyse three hydrodynamical simulations with identical initial matter overdensity fields that: i) include isocurvature modes, ii) omit them, or iii) invert their amplitude. At $z=8$, isocurvature perturbations reduce the mean baryon fraction and star formation rates of resolved halos by $ 5\%$ and $ 12\%$, respectively, relative to the null-isocurvature case. These effects are almost independent of halo mass and diminish steadily with time, reaching $ 0.1\%$ and $ 1\%$ by $z=0$. We develop a model based on spherical collapse that accurately reproduces the mean baryon fraction suppression. As high-redshift observations become increasingly routine, incorporating isocurvature perturbations into simulations and semi-analytic models will be important for robust predictions of early galaxy and black hole formation in the JWST era.
title Ripples in the baryon to dark matter ratio in $Λ$CDM: implications for galaxy formation
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2512.02127