Saved in:
Bibliographic Details
Main Authors: McMullan, Mac M., Bose, Sownak, Fattahi, Azadeh, Santos-Santos, Isabel, Hellwing, Wojciech A., Evans-Hofmann, Tilly A.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.00087
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866914435787915264
author McMullan, Mac M.
Bose, Sownak
Fattahi, Azadeh
Santos-Santos, Isabel
Hellwing, Wojciech A.
Evans-Hofmann, Tilly A.
author_facet McMullan, Mac M.
Bose, Sownak
Fattahi, Azadeh
Santos-Santos, Isabel
Hellwing, Wojciech A.
Evans-Hofmann, Tilly A.
contents Dwarf galaxies serve as key models for understanding galaxy assembly in the early universe, with their final properties influenced by environmental factors. Using the dark matter-only simulation "Copernicus Complexio" (COCO) and the semi-analytic model GALFORM, we examine the stellar mass assembly of dwarf galaxies across different cosmic web regions, defined by the NEXUS+/CACTUS algorithm. We identify significant variations in stellar mass assembly based on final mass, with the largest dwarf galaxies assembling, on average, 50% of their mass 7.7 Gyrs later than the smallest ones. Central galaxies also differ in their assembly from satellites of comparable final mass, forming 50% of their mass 2.5 Gyrs later. The location within the cosmic web further influences assembly, with satellite galaxies showing greater differences than centrals. Satellites in the densest regions assemble their mass 1.5 Gyrs earlier than those in the least dense regions, compared to 0.69 Gyrs for central galaxies. This disparity arises from varying infall times, with satellites in dense environments infalling 5.2 Gyrs earlier than those in voids. Additionally, we investigate the impact of reionisation parameters, specifically the timing ($z_{cut}$) and filtering scale ($v_{cut}$) of reionisation. The stellar-to-halo-mass relation shows a power law break between $10^8~\mathrm{M}_\odot < M_{200} < 10^{10}~\mathrm{M}_\odot$, with earlier $z_{cut}$ or higher $v_{cut}$ leading to more star formation suppression in lower-mass haloes. The halo occupation fraction is also affected, with later $z_{cut}$ or lower $v_{cut}$ resulting in fewer lower-mass haloes being occupied at $z=0$. Our investigation provides a valuable theoretical framework for interpreting upcoming observational data in this mass regime.
format Preprint
id arxiv_https___arxiv_org_abs_2604_00087
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Large Scale Structure and Environmental Effects on Dwarf Galaxy Growth
McMullan, Mac M.
Bose, Sownak
Fattahi, Azadeh
Santos-Santos, Isabel
Hellwing, Wojciech A.
Evans-Hofmann, Tilly A.
Astrophysics of Galaxies
Dwarf galaxies serve as key models for understanding galaxy assembly in the early universe, with their final properties influenced by environmental factors. Using the dark matter-only simulation "Copernicus Complexio" (COCO) and the semi-analytic model GALFORM, we examine the stellar mass assembly of dwarf galaxies across different cosmic web regions, defined by the NEXUS+/CACTUS algorithm. We identify significant variations in stellar mass assembly based on final mass, with the largest dwarf galaxies assembling, on average, 50% of their mass 7.7 Gyrs later than the smallest ones. Central galaxies also differ in their assembly from satellites of comparable final mass, forming 50% of their mass 2.5 Gyrs later. The location within the cosmic web further influences assembly, with satellite galaxies showing greater differences than centrals. Satellites in the densest regions assemble their mass 1.5 Gyrs earlier than those in the least dense regions, compared to 0.69 Gyrs for central galaxies. This disparity arises from varying infall times, with satellites in dense environments infalling 5.2 Gyrs earlier than those in voids. Additionally, we investigate the impact of reionisation parameters, specifically the timing ($z_{cut}$) and filtering scale ($v_{cut}$) of reionisation. The stellar-to-halo-mass relation shows a power law break between $10^8~\mathrm{M}_\odot < M_{200} < 10^{10}~\mathrm{M}_\odot$, with earlier $z_{cut}$ or higher $v_{cut}$ leading to more star formation suppression in lower-mass haloes. The halo occupation fraction is also affected, with later $z_{cut}$ or lower $v_{cut}$ resulting in fewer lower-mass haloes being occupied at $z=0$. Our investigation provides a valuable theoretical framework for interpreting upcoming observational data in this mass regime.
title Large Scale Structure and Environmental Effects on Dwarf Galaxy Growth
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2604.00087