On the implications of a 17 keV neutrino
Physics Letters B 260:3-4 (1991) 381-388
Abstract:
We discuss the implications of the recent measurement of a 17 keV mass component in the electron neutrino sector. Such a heavy state must decay in order to be compatible with cosmology; this requires states additional to those of the standard model. The most likely candidates are either majorons, allowing the decay into massless weakly interacting scalars, or single neutrinos, allowing the decay via the Z into light neutrinos. We show that in the latter case there is a lower bound on the lifetime in conflict with the cosmological constraints on this decay channel and on the photon plus neutrino decay channel which is also present. The extensions of the standard model needed to reduce the lifetime are considered. We analyze the mass matrix, playing particular regard to the singlet neutrino case, and discuss how it might be extended to explain the solar neutrino deficit. © 1991.Non-Baryonic Dark Matter
Nato Science Series C: Springer Nature (1991) 91-102
NEUTRON OSCILLATIONS AND THE PRIMORDIAL MAGNETIC-FIELD
ASTROPHYSICAL LETTERS & COMMUNICATIONS 27:5 (1989) 293-297
LOW-MASS PHOTINOS AND SUPERNOVA 1987A
PHYSICS LETTERS B 215:2 (1988) 404-410
COSMOLOGICAL AND ASTROPHYSICAL CONSTRAINTS ON PARTICLE PHYSICS
17th International Symposium on Multiparticle Dynamics Seewinkel, Austria, June 16-20, 1986 (1986)