Speaker
Description
In this study conducted under a freeze-out scenario, we examine a scotogenic model that tackles the dark matter problem while simultaneously producing three non-zero neutrino masses. Our investigation delves into the dual nature of a dark matter candidate, manifesting from distinct particle components across various energy regimes within the HL-LHC energy range. The results shed light on the behavior of the dark matter candidate in diverse energy contexts, emphasizing correlations with neutrino masses. Additionally, we carefully consider experimental constraints, with a specific focus on lepton flavor-violating observables, providing a comprehensive overview of the model's implications for advancing our understanding of fundamental particles within the freeze-out framework.
