Speaker
Walter Tangarife
(Loyola University Chicago)
Description
keV-scale gauge-singlet fermions, when allowed to mix with the active neutrinos, are elegant dark matter (DM) candidates. They are produced in the early Universe via the Dodelson-Widrow mechanism and can be detected as they decay very slowly, emitting x-rays. In the absence of new physics, this hypothesis is virtually ruled out by astrophysical observations. Here, we show that new interactions among the active neutrinos allow these sterile neutrinos to make up all the DM while safely evading all current experimental bounds. The existence of these new neutrino interactions may manifest itself in next-generation experiments, including DUNE.
Authors
Andre De Gouvea
(Northwestern University)
Manibrata Sen
Walter Tangarife
(Loyola University Chicago)
Prof.
Yue Zhang
(Carleton University)
