While the experimental program to detect ever lighter dark matter is proceeding full steam ahead, the theory of such light, detectable dark matter is at a crossroads. I will detail two examples of sub-GeV hadrophilic dark matter models which these future direct detection endeavors may discover while highlighting the serious challenges model builders face. The first achieves probe-able direct detection cross sections by way of a late-time, dark-sector phase transition, while the second does so by assuming the entire thermal bath is reheated at very low temperatures. Both models lead to dark matter-nucleon scattering cross sections of interest for near-future experiments for dark matter masses in the range of 100 keV-100 MeV, often in parts of parameter space with few or no models.
| Building: | West Hall |
|---|---|
| Event Type: | Workshop / Seminar |
| Tags: | Physics, Science |
| Source: | Happening @ Michigan from HEP - Astro Seminars, Department of Physics |
Events
Mar
19
HET Seminar | Search for dark photons with synchronized quantum sensor network
Yue Zhao (Utah)
12:00 PM
3481
Randall Laboratory
Mar
19
Applied Physics Seminar | Electrical Rotors Underlie Order and Disorder in the Fibrillating Heart
Omer Berenfeld, PhD., Professor of Internal Medicine, Biomedical Engineering and Applied Physics, Thematic Director, Cardiovascular Research Network (CRN), University of Michigan
12:00 PM
340
Virtual
Mar
20
The Department of Astronomy 2024-2025 Colloquium Series Presents:
Dr. Joe Hennawi, Associate Professor, UCSB
3:30 PM
411
West Hall
