Unexpected clustering pattern in dwarf galaxies challenges formation models
Abstract
The galaxy correlation function serves as a fundamental tool for studying cosmology, galaxy formation, and the nature of dark matter. It is well established that more massive, redder and more compact galaxies tend to have stronger clustering in space. These results can be understood in terms of galaxy formation in Cold Dark Matter (CDM) halos of different mass and assembly history. Here, we report an unexpectedly strong large-scale clustering for isolated, diffuse and blue dwarf galaxies, comparable to that seen for massive galaxy groups but much stronger than that expected from their halo mass. Our analysis indicates that the strong clustering aligns with the halo assembly bias seen in simulations with the standard CDM cosmology only if more diffuse dwarfs formed in low-mass halos of older ages. This pattern is not reproduced by existing models of galaxy evolution in a CDM framework, and our finding provides new clues for the search of more viable models. Our results can be explained well by assuming self-interacting dark matter, suggesting that such a scenario should be considered seriously.
Cite
@article{arxiv.2504.03305,
title = {Unexpected clustering pattern in dwarf galaxies challenges formation models},
author = {Ziwen Zhang and Yangyao Chen and Yu Rong and Huiyuan Wang and Houjun Mo and Xiong Luo and Hao Li},
journal= {arXiv preprint arXiv:2504.03305},
year = {2025}
}
Comments
Accepted for publication in Nature. 45 pages, 12 figures, 2 tables