Speaker
carlos yaguna
(Muenster University)
Description
The freeze-in mechanism of dark matter production provides a simple and intriguing alternative to the WIMP paradigm. In this talk, I show that freeze-in can be used to account for the dark matter in the so-called singlet fermionic model. In it, the SM is extended with only two additional fields, a singlet scalar that mixes with the Higgs boson, and the dark matter particle, a fermion assumed to be odd under a Z_2 symmetry. After numerically studying the generation of dark matter, I analyze the dependence of the relic density with respect to all the free parameters of the model. These results are then used to obtain the regions of the parameter space that are compatible with the dark matter constraint. We demonstrate that the observed dark matter abundance can be explained via freeze-in over a wide range of masses extending down to the keV range. As a result, warm and cold dark matter can be obtained in this model. It is also possible to have dark matter masses well above the unitarity bound for WIMPs.
Author
carlos yaguna
(Muenster University)
Co-author
Michael Klasen
(LPSC Grenoble)
