Please use this identifier to cite or link to this item:
|Title:||Cosmological Bounds Of Sterile Neutrinos In A S U(3) (c) Asus U(3) (l) Asus U(3) (r) Asuu(1) (n) Model As Dark Matter Candidates|
C. P.; Guzzo
M. M.; de Holanda
|Abstract:||We study sterile neutrinos in an extension of the standard model, based on the gauge group S U(3) (C) aSuS U(3) (L) aSuS U(3) (R) aSuU(1) (N) , and use this model to illustrate how to apply cosmological limits to thermalized particles that decouple while relativistic. These neutrinos, N (a L) , can be dark matter candidates, with a kiloelectron volt mass range arising rather naturally in this model. We analyse the cosmological limits imposed by N (e f f) and dark matter abundance on these neutrinos. Assuming that these neutrinos have roughly equal masses and are not CDM, we conclude that the N (e f f) experimental value can be satisfied in some cases and the abundance constraint implies that these neutrinos are hot dark matter. With this information, we give upper bounds on the Yukawa coupling between the sterile neutrinos and a scalar field, the possible values of the VEV of this scalar field and lower bounds to the mass of one gauge boson of the model.|
Extensions Of The Standard Model
|Appears in Collections:||Unicamp - Artigos e Outros Documentos|
Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.