7–11 Jun 2026
Chung-Ang University
Asia/Seoul timezone

Infrared Freeze-In of Magnetic Dipole Dark Matter

11 Jun 2026, 14:30
30m
Chung-Ang University

Chung-Ang University

Graduate school 302-503, Chung-Ang University, Seoul 06974, Republic of Korea

Speaker

Jae Hyeok Chang (Seoul National University)

Description

We propose a novel mechanism for the cosmological production of keV - GeV mass dark matter that interacts with the Standard Model through a small effective magnetic dipole moment. Such an interaction can be radiatively generated if dark matter couples to heavier charged particles. Previous studies have focused on the case where these charged states are much heavier than the reheat temperature, such that freeze-in production of dark matter is sensitive to the ultraviolet details of reheating. Here, we instead consider the possibility that these heavy states have masses comparable to the dark matter mass and are charged under a new kinetically-mixed U(1)' . As a result, dark matter production is dominated by the infrared freeze-in of the heavy charged states that subsequently thermalize the rest of the dark sector to a temperature much below that of the visible bath. We delineate regions of parameter space consistent with cosmological and astrophysical constraints and identify benchmark scenarios that can guide the next generation of direct detection experiments searching for spin-dependent scattering of sub-GeV dark matter.

Presentation materials