Warm Dark Matter Constraints Using Milky-Way Satellite Observations and Subhalo Evolution Modeling

TL;DR

This study constrains warm dark matter particle masses using Milky-Way satellite observations and a semi-analytical model, ruling out lighter WDM particles and sterile neutrinos below specific mass thresholds with high confidence.

Contribution

Introduces the SASHIMI semi-analytical model to robustly constrain WDM particle masses from satellite counts without relying on galaxy formation assumptions.

Findings

WDM particles lighter than 4.4 keV are ruled out at 95% confidence.

Constraints on sterile neutrino WDM are m > 11.6 keV for a Milky-Way halo of 10^12 M_sun.

The model provides robust, resolution-independent WDM constraints.

Abstract

Warm dark matter (WDM) can potentially explain small-scale observations that currently challenge the cold dark matter (CDM) model, as warm particles suppress structure formation due to free-streaming effects. Observing small-scale matter distribution provides a valuable way to distinguish between CDM and WDM. In this work, we use observations from the Dark Energy Survey and PanSTARRS1, which observe 270 Milky-Way satellites after completeness corrections. We test WDM models by comparing the number of satellites in the Milky Way with predictions derived from the Semi-Analytical SubHalo Inference ModelIng (SASHIMI) code, which we develop based on the extended Press-Schechter formalism and subhalos' tidal evolution prescription. We robustly rule out WDM with masses lighter than 4.4 keV at 95% confidence level for the Milky-Way halo mass of $10^{12} M_\odot$. The limits are a weak function of the (yet uncertain) Milky-Way halo mass, and vary as $m_{\rm WDM}>3.6$-$5.1$ keV for $(0.6$-$2.0) \times 10^{12} M_\odot$. For the sterile neutrinos that form a subclass of WDM, we obtain the constraints of $m_{\nu_s}>11.6$ keV for the Milky-Way halo mass of $10^{12} M_{\odot}$. These results based on SASHIMI do not rely on any assumptions of galaxy formation physics or are not limited by numerical resolution. The models, therefore, offer a robust and fast way to constrain the WDM models. By applying a satellite forming condition, however, we can rule out the WDM mass lighter than 9.0 keV for the Milky-Way halo mass of $10^{12} M_\odot$.